US20160086109A1 - Methods, systems and computer program products for planning resources based on primary and alternate location relief strategies - Google Patents

Abstract

In a computer-based method of planning resources, a plurality of Location Relief Strategy (LRS) plan data sets are imported into a resource planning application. The LRS plan data sets are associated with a resource need. One of the LRS plan data sets is defined as a primary LRS plan and at least one other one of the LRS plan data sets is defined as an alternate LRS plan. A resource plan is generated within the resource planning application based on the primary LRS plan and/or the alternate LRS plan. The primary LRS plan and the alternate LRS plan may each correspond to a plan for installing and/or retiring resources in a geographic area. The resources may, for example, be resources for carrying telecommunications in a geographic area.

Description

RELATED APPLICATION
• This application is a continuation of U.S. patent application Ser. No. 10/885,191, filed Jul. 6, 2004, which claims the benefit of and priority to U.S. Provisional Patent Application No. 60/518,606, filed Nov. 7, 2003, the disclosure of which are hereby incorporated herein by reference as if set forth in their entirety.
FIELD OF THE INVENTION
• The present invention relates to computer systems and more particularly to methods, systems, and computer program products for computer based resource planning.
BACKGROUND OF THE INVENTION
• Planning resources, such as telephone network resources, generally involves determining what resource needs are expected over time, and examining the resources that are presently available and/or that need to be installed to satisfy the expected needs. Such planning once exclusively involved rendering resources that may be installed (i.e., planned resources) as mark-ups on transparent sheets, which were overlaid on paper geographic resource maps that included illustrations of existing resources. The transparent sheets and paper geographic maps then formed a location relief strategy for how existing and planned resources could be used to satisfy a resource need. Digital representations of geographic maps have increasingly become available through, for example, Geographic Information System (GIS) tools. Some GIS tools allow users to define and associate resources with geographic features of the digitized maps.
SUMMARY OF THE INVENTION
• Some embodiments of the present invention provide computer-based methods of planning resources based on a resource need. A plurality of Location Relief Strategy (LRS) plan data sets are imported into a resource planning application. The LRS plan data sets are associated with a resource need. One of the LRS plan data sets is defined as a primary LRS plan and at least one other one of the LRS plan data sets is defined as an alternate LRS plan. A resource plan is generated within the resource planning application based on the primary LRS plan and/or the alternate LRS plan.
• In some further embodiments of the present invention, the LRS plan data sets can be prioritized. The highest priority LRS plan data set can be selected as the primary LRS plan, and at least one other of the LRS plan data sets can be designated as the alternate LRS plan(s). The primary LRS plan may be changed to be an alternate LRS plan, and the alternate LRS plan may be changed to be a primary LRS plan. The primary LRS plan and/or the alternate LRS plan may be selectively displayed based on selections from a user. A plurality of LRS plan data sets may be associated with a plurality of resource needs, with one of the LRS plan data sets for each of the plurality of resource needs being defined as a primary LRS plan. A resource plan for each of the resource needs may be generated, and may be displayed to a user.
• In some other embodiments of the present invention, the primary LRS plan and the alternate LRS plan may each correspond to a plan for installing and/or retiring resources in a geographic area. The resources may include resources for carrying telecommunications in a geographic area. A LRS plan may include, for example, a plan for installing a number of fiber optic communication lines and/or electrical communication lines at a geographic location.
• Accordingly, more than one LRS plan may be associated with a resource need. When more than one LRS plan is associated with a resource need, one of the plans may be defined as a primary LRS plan and the other plan(s) may be defined as alternate LRS plan(s). The primary LRS plan may correspond to what a Long Term Planner perceives as a preferred way of satisfying the associated resource need, while the alternate LRS plans may correspond to what are perceived as less preferred ways. Such association of a preferred LRS plan and alternate LRS plans with a resource need may allow a Long Term Planner to define many different resource plans for meeting a resource need, and to designate a preferred resource plan while maintaining the other LRS plans for further use (e.g., documentation and/or analysis).
• Other systems, methods, and/or computer program products according to embodiments will be or become apparent to one with skill in the art upon review of the following drawings and detailed description. It is intended that all such additional systems, methods, and/or computer program products be included within this description, be within the scope of the present invention, and be protected by the accompanying claims.
BRIEF DESCRIPTION OF THE DRAWINGS
• FIG. 1 is a high-level view of the responsibilities of the exemplary user groups that may use a Fiber Management Tool (FMT) according to embodiments of the present invention.
• FIG. 2 depicts a block diagram of the FMT.
• FIG. 3 depicts a comparison between the “new” and “existing” objects in a FAS database.
• FIG. 4 is a graphical view of a nine state region level provided by an exemplary FMT.
• FIG. 5 is a graphical view of the multi-state region level provided by an exemplary FMT.
• FIG. 6 is a graphical view of the wire center level provided by an exemplary FMT.
• FIG. 7 is a high-level graphical view of the street level provided by an exemplary FMT.
• FIG. 8 is a low-level graphical view of the street level provided by an exemplary FMT.
• FIG. 9 depicts the relationships between exemplary components in a Location Relief Strategy (LRS).
• FIG. 10 is a state transition diagram that depicts the functions of a LRS within a FMT.
• FIG. 11 is a state transition diagram that depicts functions of an alternate LRS within a FMT.
• FIG. 12 depicts an exemplary display of a returned data window and data discrepancies.
• FIG. 13 depicts an exemplary systems development life cycle methodology followed for internally developed systems and major enhancements.
• FIG. 14 depicts an exemplary three-tier architecture of an OPEDS system.
• FIG. 15 depicts an OPEDS topology.
• FIG. 16 depicts an OPEDS data center.
• FIG. 17 depicts a typical district/RLAC.
• FIG. 18 is a block diagram of a resource planning system suitable for use in embodiments of the present invention.
• FIG. 19 depicts an exemplary display of existing resources and resource needs.
• FIG. 20 depicts an exemplary resource plan that displays primary LRS plans and alternate LRS plans responsive to the resource needs shown in FIG. 2.
• FIG. 21 depicts an exemplary resource plan that displays only primary LRS plans responsive to the resource needs shown in FIG. 2.
• FIG. 22 is a flowchart illustrating operations for planning resources based one or more resource needs according to various embodiments of the present invention.
DETAILED DESCRIPTION
• The present invention now will be described more fully hereinafter with reference to the accompanying drawings, in which illustrative embodiments of the invention are shown. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein; rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the invention to those skilled in the art. Like numbers refer to like elements throughout.
• The detailed description of embodiments of the present invention is organized as follows:
• • 1 Overview
  • 2 Introduction
  • 3 Description of Users and Information Needs
  • 3.1 Local Planners (Facility Planners)
  • 3.2 Long-Term Planners
  • 3.3 Infrastructure Inter-Office (IOF) Planners
  • 3.4 Construction
  • 4 Baseline Systems and Data
  • 5 Diagrams
  • 5.1 High Level Relationship
  • 5.2 Comparison of Systems
  • 6 Client Application Layer
  • 6.1 Login/Password
  • 6.2 Graphical and Tabular Fiber Capabilities
  • 6.2.1 Search/Find, View Graphical Elements
  • 6.2.1.1 Provide Views and Functions in a Seamless Environment
  • 6.2.1.2 Provide Default Views
  • 6.2.1.3 Specify Scaling Capability
  • 6.2.1.4 Specify Search Criteria
  • 6.2.1.5 Provide Additional Search Functions
  • 6.2.1.6 Format Query Results
  • 6.2.1.7 Display Multiple Query Results
  • 6.2.1.8 Define Default Views
  • 6.2.1.8.1 Default View by User Type
  • 6.2.1.8.2 Nine State Region
  • 6.2.1.8.3 Multi State
  • 6.2.1.8.4 Single State
  • 6.2.1.8.5 District
  • 6.2.1.8.6 Wire Center
  • 6.2.8.1.7 Street Level
  • 6.2.2 Select and Query Visible Graphical and Network Facility Items
  • 6.2.2.1 List Attributes of a Fiber Sheath
  • 6.2.2.2 List Attributes of a Fiber Splice
  • 6.2.2.3 List Attributes of a Fiber Strand
  • 6.2.2.4 List Attributes of an Equipment Location
  • 6.2.2.5 Display Data Attributes of a Conduit
  • 6.2.2.6 Display Data Attributes of Landbase Features
  • 6.2.3 Provide Fiber Calculation Tools
  • 6.2.3.1 Determine Number of Splices in a Strand
  • 6.2.3.2 Provide Distance Between Points on a Fiber Strand
  • 6.2.3.3 Provide Distance Between Geographic Points
  • 6.2.3.4 Calculate and Display Anticipated dB Loss of Fiber Strand Path
  • 6.2.3.5 Input Loss and Locate Fiber Cut
  • 6.2.3.6 Generate Restoration Order Based On System/User
  • 6.2.4 Generate Fiber Schematics
  • 6.2.4.1 Use Automatic Schematics Tool
  • 6.2.4.2 Use Manual Schematics Tool
  • 6.2.5 Integrate Fiber Related Data
  • 6.2.5.1 Add Fiber Strand and Derived Wavelength Data
  • 6.2.5.2 Provide Connectivity Between Fiber Strand and Equipment Slot
  • 6.2.5.3 Provide SCID Relationships to Fiber Strand and Equipment Slot
  • 6.2.5.4 Provide LEAD and TIRKS Circuit IDs
  • 6.2.5.5 Capture Fiber Diversity Information
  • 6.2.5.6 Capture Fiber Connections from FOX
  • 6.2.5.7 Capture a LOC/CLLI and Address from LOC/CLLI System
  • 6.2.5.8 Capture Easement/ROW Information for Locations from BETS
  • 6.2.5.9 Generate Land Base For Non-OPEDS Converted Wire Centers
  • 6.2.5.10 Develop Mechanized Processes From Legacy System Sources
  • 6.2.5.11 Manage Out of Franchise Fiber and Equipment
  • 6.2.5.12 Display and Identify CLEC Sheaths and Equipment
  • 6.2.5.13 Allow Entry of Fiber Loss Data
  • 6.2.5.13.1 Allow Manual Entry of Fiber Loss Data
  • 6.2.5.13.2 Allow Automatic Entry of Fiber Loss Data
  • 6.2.5.14 Display Measured Loss
  • 6.2.6 Provide Fibers and Related Equipment Search and Display
  • 6.2.6.1 Display Cabinets for Specified Equipment Location
  • 6.2.6.2 Display Devices for Selected Structure—Filter by Type
  • 6.2.6.3 Display Selected Device Attributes
  • 6.2.6.4 Display Device Slots and Related Circuits
  • 6.2.6.5 Locate Equipment by Address
  • 6.2.7 Provide Fibers and Equipment Utilization Monitoring
  • 6.2.7.1 Provide CSA Utilization by Service Type
  • 6.2.7.2 Provide CSA Alerts to FACILITY PLANNERS
  • 6.2.7.3 Determine Fiber Strand Utilization
  • 6.2.7.3.1 Determine Whether Physical Strand is Assigned
  • 6.2.7.3.2 Determine Physical and Derived Fiber Strand Utilization
  • 6.2.7.3.3 Determine Carrier Signal Level Utilization for a Strand
  • 6.2.7.3.4 Determine DS0 Equivalent Utilization for Virtual and Physical Fiber Strands
  • 6.2.7.4 Determine Fiber Sheath Utilization
  • 6.2.7.5 Determine Utilization Trend Analysis
  • 6.2.7.6 Determine Fiber Cross-Section Alerts
  • 6.2.7.7 Determine MUX Utilization
  • 6.2.7.8 Monitoring Point
  • 6.2.7.9 Xbox and CSA History and Trending
  • 6.2.8 Provide Fiber Tools and Reports
  • 6.2.8.1 Generate Equipment Site Activity Log
  • 6.2.8.2 Allow User to Determine Fiber Strand Diversity
  • 6.2.8.3 Assign Restoration Priority for a System Assembly
  • 6.2.8.4 Assign Reservation for a Fiber Strand
  • 6.2.8.5 Provide Numbering Administration Tools
  • 6.2.8.5.1 Add System Numbering Tool
  • 6.2.8.5.2 Add SCID Administration Tool
  • 6.2.8.6 Enhance Existing Database, Posting & Viewing Tools
  • 6.2.8.7 Develop Tools to Populate the Facility Data Enhancements
  • 6.2.8.8 Develop Tools to Add Existing Fiber and CSA Locations
  • 6.2.8.9 Allow User To Perform Fiber Traces
  • 6.3 Planning Layer Functionality
  • 6.3.1 LRS Overview
  • 6.3.1.1 LRS States
  • 6.3.1.2 Primary LRS State Transitions
  • 6.3.1.3 Alternate LRS
  • 6.3.1.4 Alternate LRS State Transitions
  • 6.3.2 Provide Location Relief Strategy Administration Tool
  • 6.3.2.1 Create a LRS and Associated Administrative Data
  • 6.3.2.2 Create Alternative LRS and Associate for a Route
  • 6.3.2.3 Modify LRS Administrative Data
  • 6.3.2.4 Save and Retrieve LRS and Administrative Data
  • 6.3.2.5 Logically Delete LRS and Associated Data
  • 6.3.2.6 Purge LRS and Associated Data
  • 6.3.2.7 Create, Modify, and Delete LRS Notes by User
  • 6.3.2.8 Provide LRS Reports by User Selection Filters
  • 6.3.2.9 Close a LRS Manually
  • 6.3.2.10 Alert Overage Service Dates on LRS
  • 6.3.2.11 Dependent LRS Clone
  • 6.3.3 Provide Graphical and Tabular Planning Tools
  • 6.3.3.1 Generate LRS Schematics From Existing Fiber Data
  • 6.3.3.2 Provide Drawing Tools, Symbols, and Attribute Creation Functions
  • 6.3.3.3 Document Future Location Relief Strategy, and/or DLE Locations
  • 6.3.3.4 Retrieve and Display LRS
  • 6.3.3.5 Display Multiple LRS Graphically
  • 6.3.3.6 Copy Existing LRS to New LRS
  • 6.3.3.7 Modify LRS
  • 6.3.3.8 Publish LRS
  • 6.3.3.9 View LRS and DLE Plans
  • 6.3.3.10 View Multiple LRS for Same Geographic Area
  • 6.3.3.11 Capture LRS Notes Associated with a Graphical Feature by User
  • 6.3.3.12 Manage Graphical Feature LRS Notes by User
  • 6.3.3.13 Link to Tabular LRS Data at Location Features
  • 6.3.3.14 Measure Strand Distances
  • 6.3.3.15 Provide View Printing
  • 6.3.3.16 Create an Equipment Plan Associated to a LRS and Location
  • 6.3.3.17 Create Fiber Strand Plans Associated to LRS and Sheath
  • 6.3.3.18 Provide Summary Reports
  • 6.3.3.19 Create Ad Hoc Monitoring Queries and Reports
  • 6.3.3.20 LRS Handoff Package
  • 6.3.3.21 Monitor Facility and Fills
  • 6.3.3.22 Provide Inventory Tasks on Equipment/Site Details
  • 6.3.3.23 Maintain Editing History
  • 6.3.3.24 Create “Publish” Pop-Up Window
  • 6.4 Exit, Session, Recovery, and Cleanup
  • 6.5 Performance
  • 7 External System
  • 7.1 External Systems Communications
  • 7.1.1 LECIII
  • 7.1.1.1 LEC III Data Embodiments
  • 7.1.2 LOC/CLLI
  • 7.1.3 LFACS
  • 7.1.4 FOX/DSX/TEQPS
  • 7.1.4.1 FOX/DSX Data Embodiments
  • 7.1.5 TIRKS
  • 7.1.6 LEIM
  • 7.1.7 BCM
  • 7.1.8 PM TOOL
  • 7.1.8.1 PM Tool Data Embodiments
  • 7.1.9 TEQPS
  • 8 Data Embodiments
  • 8.1 LRS & Hand-Off Package
  • 8.2 LRS Search
  • 8.3 Facility Route Search
  • 8.4 Equipment Attributes
  • 8.5 MUX
  • 8.6 DSX
  • 8.7 LOX
  • 8.8 ONU
  • 8.9 NMLI
  • 8.10 DLC
  • 8.11 Fiber Splice
  • 8.12 Switch
  • 8.13 Repeater Shelf
  • 8.14 Fiber Strand
  • 8.15 Fiber Sheath
  • 8.16 Equipment Location
  • 8.17 Conduit
  • 9 Use Case Modeling
  • 9.1 Use Case Descriptions
  • 9.1.1 Use Case: Login and Password
  • 9.1.1.1 Description
  • 9.1.1.2 Actors
  • 9.1.1.3 Normal Sequence
  • 9.1.1.4 Alternative Sequence
  • 9.2.2 Use Case: Search/Find, View Graphical Elements
  • 9.2.2.1 Description
  • 9.2.2.2 Actors
  • 9.2.2.3 Normal Sequence
  • 9.2.2.4 Alternate Sequences
  • 9.2.3 Use Case: Query Network Facility Items
  • 9.2.3.1 Description
  • 9.2.3.2 Actors
  • 9.2.3.3 Normal Sequence
  • 9.2.3.4 Alternative Sequence
  • 9.2.4 Use Case: Provide Calculation Tools
  • 9.2.4.1 Description
  • 9.2.4.2 Actors
  • 9.2.4.3 Normal Sequence
  • 9.2.4.4 Alternative Sequence
  • 9.2.5 Use Case: Integrate Fiber Related Data
  • 9.2.5.1 Description
  • 9.2.5.2 Actors
  • 9.2.5.3 Normal Sequence
  • 9.2.5.4 Alternative Sequence
  • 9.2.6 Use Case: Provide Fiber Tools and Reports
  • 9.2.6.1 Description
  • 9.2.6.2 Actors
  • 9.2.6.3 Normal Sequence
  • 9.2.6.4 Alternative Sequence
  • 9.2.7 Use Case: Create, Read, Update, Delete LRS
  • 9.2.7.1 Description
  • 9.2.7.2 Actors
  • 9.2.7.3 Normal Sequence
  • 9.2.7.4 Alternate Sequences
  • 9.2.8 Use Case: View Cross Box Data for Planning
  • 9.2.8.1 Description
  • 9.2.8.2 Actors
  • 9.2.8.3 Normal Sequence
  • 9.2.8.4 Alternative Sequence
  • 10 Technical
  • 10.1 General
  • 10.2 Computing Architecture
  • 10.3 Computer Asset Protection Guidelines
  • 10.4 SDLC
  • 10.5 Other Standards And Guides
  • 10.5.1 GUI Style Guide
  • 10.5.2 Capability Maturity Model
  • 10.5.3 Metrics
  • 10.5.4 Configuration Management
  • 10.6 Technical Design
  • 10.6.1 Design
  • 10.6.2 Open Systems
  • 10.6.3 Open APIs
  • 10.6.4 Interfaces
  • 10.6.5 PC Client Data Access
  • 10.6.6 Portability
  • 10.6.7 Software Development Tools
  • 10.6.8 Naming Conventions
  • 10.6.9 Information Modeling
  • 10.6.10 Data
  • 10.6.11 Data Movement
  • 10.6.12 User Interface Design
  • 10.6.13 On-line Help
  • 10.6.14 Security Embodiments
  • 10.6.15 User Identification
  • 10.6.16 Security Audit
  • 10.6.17 Operations
  • 10.6.18 Backup and Recovery
  • 10.6.19 Application Management
  • 10.6.20 Error Resolution
  • 10.6.20.1 Client Application/User Errors
  • 10.6.20.2 Technical Errors
  • 10.6.21 Timing Embodiments
  • 10.6.22 Load Projections
  • 10.6.23 Software Delivery
  • 10.6.24 Work Center Application Integration Group
  • 10.7 Current OPEDS Architecture
  • 10.7.1 Overview
  • 10.7.1.1 External System Data
  • 10.7.1.2 OPEDS
  • 10.7.2 Workstation Specifications
  • 10.7.3 Server/Database Specifications
  • 10.7.4 System Diagram
  • 10.8 Computing Architecture
  • 10.8.1 OPEDS Data Repositories
  • 10.8.1.1 Landbase
  • 10.8.1.2 Facilities
  • 10.8.2 Network Information Services
  • 10.8.3 Domain Name System (DNS)
  • 10.8.4 OPEDS Process/Data Management Layer
  • 10.8.5 Wide Area Network
  • 10.8.6 External System Data
  • 10.9 OPEDS Topology
  • 10.9.1 Data Center
  • 10.9.2 Typical District/RLAC
  • 11 Reference Items
  • 11.1 Glossary of Terms for the FMT and Systems
  • 12 Further Details With Respect to Methods, Systems and Computer Program Products for Planning Resources Based on Primary and Alternate Location Relief Strategies
1 Overview
• As will be appreciated by one of skill in the art, the present invention may be embodied as a method, data processing system, or computer program product. Accordingly, the present invention may take the form of entirely software embodiments or embodiments combining software and hardware aspects. Furthermore, the present invention may take the form of a computer program product on a computer-usable storage medium having computer-usable program code embodied in the medium. Any suitable computer readable medium may be utilized including hard disks, CD-ROMs, optical storage devices, a transmission media such as those supporting the Internet or an intranet, or magnetic storage devices.
• Computer program code for carrying out operations of the present invention may be implemented using programmable aspects of existing application programs such as, for example, application programs that may interface to, or be at least partially integrated with, Geographical Information System (GIS) tools and/or databases that can store geographic and resource information. Aspects of the computer program code may also be written in an object oriented programming language such as Java®, Smalltalk or C++ and/or using a conventional procedural programming languages, such as the “C” programming language. The program code may execute entirely on the user's computer, partly on the user's computer, as a stand-alone software package, partly on the user's computer and partly on a remote computer or entirely on the remote computer. In the latter scenario, the remote computer may be connected to the user's computer through a local area network (LAN) or a wide area network (WAN), or the connection may be made to an external computer (for example, through the Internet using an Internet Service Provider).
• The present invention is described below with reference to flowchart illustrations and/or block diagrams of methods, apparatus (systems) and computer program products according to embodiments of the invention. It will be understood that blocks of the flowchart illustrations and/or block diagrams, and combinations of blocks in the flowchart illustrations and/or block diagrams, can be implemented by computer program instructions. These computer program instructions may be provided to a processor of a general purpose computer, special purpose computer, or other programmable data processing apparatus to produce a machine, such that the instructions, which execute via the processor of the computer or other programmable data processing apparatus, create means for implementing the functions/acts specified in the flowchart and/or block diagram block or blocks.
• These computer program instructions may also be stored in a computer-readable memory that can direct a computer or other programmable data processing apparatus to function in a particular manner, such that the instructions stored in the computer-readable memory produce an article of manufacture including instruction means which implement the function/act specified in the flowchart and/or block diagram block or blocks.
• The computer program instructions may also be loaded onto a computer or other programmable data processing apparatus to cause a series of operational steps to be performed on the computer or other programmable apparatus to produce a computer implemented process such that the instructions which execute on the computer or other programmable apparatus provide steps for implementing the functions/acts specified in the flowchart and/or block diagram block or blocks.
• Various embodiments of the present invention provide computer-based resource planning using a resource planning application. For purposes of illustration only, some of these embodiments are described herein in the context of planning communication resources, such as fiber optic communication lines and/or electrical communication lines. In particular, some embodiments of the present invention are described with regard to a Fiber Management Tool (FMT). It will be understood, however, that the present invention is not limited to planning of communication resources. Indeed, other resources, such as, but not limited to, gas lines, water lines, electrical lines, and/or television lines may be planned by other embodiments of the present invention. In general, the present invention is intended to encompass any technology and/or configuration capable of carrying out the operations described herein.
2 Introduction
• Resource planning systems, methods and computer program products according to some embodiments of the invention, referred to herein, may be embodied in a Fiber Management Tool (FMT). The FMT can be a computer-based application that may provide an integrated view and monitoring of utilization of an existing fiber optic network and associated digital loop electronics, and may make this information more readily accessible to Network FACILITY PLANNERSs, Designers, Long Term Planners, and Construction Repair technicians, which may shorten information research time. The FMT may use land, facility, and equipment data stores. The FMT may run as an application on one or more servers, such as HP Unix servers that include Oracle for managing database attributes, and may include a DGN format for graphical files. The FMT application may display a graphical as well as a tabular view of data. The graphical layer may graphically display fiber network elements (ex. Fiber routes, remote terminals, central offices, equipment), supporting structures (ex. Conduit, manholes, poles) at defined geographical levels (ex. Wire center, state, district), and/or associated landbase features (ex. Streets, parcels, lakes, rivers).
• The FMT may include the functionality of, or integrate with, existing Mechanized Facility Management databases, posting tools, and viewing tools to support additional fiber functionality: Inter-wire center connector, fiber splice feature, graphical location of fiber in Underground records, and CSA/Equipment Location feature. It may provide a development tools to automatically populate the facility data enhancements. The FMT may include tools to add existing fiber and CSA locations, along with key structure and connectivity features/attributes to the FMT SDO Database; both automatically from mechanized wire centers, and manually for non-mechanized wire centers. In addition to the IOF and feeder fiber network, FMT can also include distribution fiber.
• The FMT may include a central repository for documenting Location Relief Strategies (LRS) plans created by FACILITY PLANNERSs and Long Term Planners. The FMT may include a planned data layer that allows definition of FACILITY PLANNERS, and tool for creating and maintaining future LRSs including fiber network, fiber strands, and associated DLE information. The FMT may include create a planning schematic from the existing network data, and may allow an automated “hand-off” of a selected LRS to a PM Tool system for the design process. Searches may be performed for primary and/or alternate LRSs.
• The FMT may generate a land base for non-OPEDS converted wire centers with the location of central offices, equipment sites and x-boxes from the existing OPEDS land base data. It may provide mechanized processes and rules to load data and manage data conflicts from separate legacy system sources and user input from local records, and determine appropriate source to use to provide existing fiber and equipment attributes.
• Potential users of the system and their basic needs are now described below, followed by a detailed discussion of various embodiments of the invention. The subsequent sections discuss the various embodiments in further detail and provide information about data, relationships, applicable business rules, and standards.
3 Description of Users and Information Needs
• Purpose: The following section describes the various user groups that FMT can serve. Each section gives a brief overview of each user group's responsibility and their information needs.
• Discussion: FMT's target users comprise of four groups. These groups are:
• • Local Planners (FACILITY PLANNERSs)
  • Infrastructure Loop Planners
  • Infrastructure Inter-Office (IOF) Planners
  • Construction
    FIG. 1 provides a high-level view of the major user group's responsibilities.
• 3.1 Local Planners (Facility Planners)
• FACILITY PLANNERS often answer requests for information from Marketing, Long Term Planners, and Inter-Office Planners. Local Planners have access to several sources of data. These include OPEDS Facility Database (MapViewer), LEIM, TIRKS, LFACS, and personal records, which makes them a de facto data repository for almost all of a telecommunication company's fiber optic assets. FMT can aggregate the information supplied by these external systems, providing Local Planners with a synchronized, consistent view of the data.
• 3.2 Long Term Planners
• This group is responsible for high-level business planning, and analyzing metro-area and surrounding infrastructure. This group maintains information in personal records, stored primarily in spreadsheets (Microsoft Excel) and local databases (Microsoft Access). Long Term Planners provide Marketing with information. They also share information with Local Planning and Inter-Office Planners. Often, Long Term Planners require additional information, and personnel must contact Local Planning or Inter-Office Planners. FMT can provide Long Term Planners with timely information and eliminate the need for them to contact the other groups directly.
• 3.3 Infrastructure Inter-Office (IOF) Planners
• Inter-Office Planners are responsible for designing the architecture for closed system, fiber-optic networks for businesses. A significant amount of their work revolves around the provisioning of advanced telephony services. Inter-Office Planners often rely on Long Term Planners and Local Planners to fulfill their information needs. Inter-Office Planners desire fiber route records, but have may only high-level schematics and assignment data. They often coordinate with Local Planners to make ring-routing decisions. FMT can provide Inter-Office Planners with fiber routing information and detailed schematics and streamline their interaction with other planning groups.
• 3.4 Construction
• The Construction group has little direct involvement with managing fiber optic assets and is not involved in the information flow among the other groups. However, Construction is responsible for repair and splicing work. The Splicing Technicians in Construction deal with major problems (a cut cable) and minor problems (a missing jumper in a Light Cross Connect (LOX). Splicing Technicians currently have the ability to determine fault distances using an Optical Time Domain Reflectometer (OTDR). FMT can help them complete the “picture” of the problem by correlating this OTDR distance data with a geographic location. With geographic data available, Splicing Technicians can resolve problems more quickly.
4 Baseline Systems and Data
• For the purpose of developing/implementing Fiber Management Tool, the following systems and data sets are assumed to exist:
• Landbase
• A landbase is a representation of streets, rights of ways, and various boundaries. This data may be stored in an Oracle database utilizing GIS software such as that provided by ESRI.
• Facility
• A mechanized facility database is a representation of the various facilities which comprise the telephone network. Facilities represented include, but are not limited to, poles, manholes, copper cables, terminals, and fiber cables. This graphical representation may be stored in a GIS database or in graphics files such as .dgn files.
• Land & Facility Data Exchange
• A Land and Facility Exchange is a means of synchronizing the two data stores to ensure that the facilities represented are shown in proper relation to the streets and rights of ways.
• Equipment Database
• The Equipment Database reconciles records of telephone equipment and assignment records from various databases. The reconciled records may be from systems such as LEIM, LFACS, and TIRKS.
5 Diagrams
• 5.1 High Level Relationship
• In the development and design of Fiber Management System, a goal is to add new fiber information to existing by extracting data from various External Systems and Facility Management to display information in FAS via a Web interface. FIG. 2 represents the high level relationships for FMT.
• 5.2 Comparison of Systems
• Currently in FAS through the FAS umbrella, the “existing” as shown in FIG. 3, refers to the objects maintained in the FAS database. Within the existing objects, new data may be added. The objects depicted in FIG. 3 as “new” refer to the new objects to be incorporated i.e. (Fiber Sheath, Fiber Connect Fiber Strand and Plan) in the FAS database. A Location Relief Strategy (LRS) is a mechanism that is used to record future network relief strategies, providing the user with the ability to document network modifications, document the justification, and communicate this information electronically to downstream users, i.e. design engineering vendors and external systems. The LRS may be developed for immediate or future relief. Within the existing information base, the user can monitor cross-box fills, equipment, site, slot, wire center and their capacities. With the new proposed FAS functionality the user can be able to drill down to the fiber strand information and link to the existing information base and view graphically via the Fiber Management Tool.
6 Client Application Layer
• Purpose: This section provides detailed information on FMT's application-layer embodiments, including functionality and expected behavior. The groupings are summarized in Table 1.

• TABLE 1
  Embodiment Groupings and Descriptions

  Embodiment Groupings	Description
  Login/Password	Describes a high-level architecture for login and
  	password functions and user accessibility
  	options.
  Graphical and Tabular Fiber Capabilities	These embodiments describe the method for
  	querying on specific criteria. They also indicate
  	the functionality and types of data that FMT can
  	provide to a user in a graphical or text format.
  	Reporting are also included.
  Planning Layer Functionality (LRS)	These embodiments indicate the functionality
  	and types of data that FMT can provide for a
  	user to plan future fiber network construction.
  Utilize Data Supplied by External Systems	A brief summary of the functionality expected
  	from FMT when reading data received from
  	external systems.
  Exit, Sessions, Recovery, and Cleanup	Summaries of the client interaction with the
  	system as these functionalities are performed.
  Performance Embodiments	These embodiments describe standard
  	performance measures met by the system.

• 6.1 Login/Password
• Users may be granted access to FMT via a unique combination of user identification (CUID, Common User ID) and password. FMT can maintain user permissions—including access to the planning layer access permissions on default views, etc.—in a user table stored in a database on a secure server. This table can provide administrators with the flexibility to organize users and associated permissions into logical groups.
• 6.2 Graphical and Tabular Fiber Capabilities
• These embodiments indicate functionality needed to access information in FMT and manage the information process. It also describes core functionality that FMT can provide to users.
• 6.2.1 Search/Find, View Graphical Elements
• 6.2.1.1 Provide Views and Functions in a Seamless Environment

• Embodiment	Provide accurate graphical views of geographical
  	features and network facilities in a seamless
  	environment.
  Description	Graphical views and fiber strand connectivity shall be
  	maintained across wire center, district, state, and other
  	boundary types.

• 6.2.1.2 Provide Default Views

• Embodiment	Provide support for default views containing a defined
  	set of fiber network elements (facilities) and
  	geographical features (landbase) based upon the type of
  	view presented.
  Description	The GUI interface can provide other geographical and fiber
  	network elements that can be shown based upon a user's
  	request (i.e. turn features on or off).
  Data	At a minimum, FMT can provide the following default
  	views:
  	Nine State Region View
  	Multi-State View
  	State View
  	District View
  	Wire Center View
  	Street View

• 6.2.1.3 Specify Scaling Capability

• Embodiment	Ability to define the scale of display and the ability to
  	override the default scale assigned to a default view.
  Description	As the scale of the view changes, the level of detail for land
  	and facility elements, as noted via symbology, can also
  	change in a corresponding manner. Views and network
  	symbology can map to current OPEDS, .LND, landbase,
  	and .DGN in the facilities models previously described.
  	When the user changes the scale, FMT can toggle between
  	default views (e.g., if the user is at the Nine-State view and
  	changes the scale by zooming in, FMT can, at a defined
  	scale point, switch to the Multi-State view).
  Data	FMT can provide the user with the ability to specify the
  	view and scale via the following manners:
  	Map to Ground Ratio (e.g., 1:100)
  	Map Unit equals Ground Distance (e.g., 1 inch to 1
  	mile, or 1 kilometer)
  	Magnification Factor (e.g., zoom-in or zoom-out
  	from a centered point on the screen)
  	Select default views by indicating appropriate
  	attributes (e.g., user selects Wire Center view and
  	specifies a Wire Center or user can select multi-
  	wire center view; user selects Street view by
  	indicating Wire Center and street intersection)
  	Defining the Area of Interest by drawing a polygon
  	(e.g., user draws a polygon at a Wire Center view,
  	or multi-wire center view, and FMT shows a street
  	level view the specified area)

• 6.2.1.4 Specify Search Criteria

• Embodiment	Provide the user with the ability to select specific
  	parameters for querying data.
  Description	The parameters can provide the user with the ability to
  	define the scope of the query from a broad search (e.g., all
  	equipment at a Central Office (CO)) to a more precise
  	search (e.g., a specific item of equipment at a CO).

• 6.2.1.5 Provide Additional Search Functions

• Embodiment	Provide the user with the ability to further refine a
  	query by utilizing Boolean searches.
  Description	Users can base the searches on an item or group of items
  	against a value or range of values (e.g., all sheaths greater
  	than 10000 feet). This functionality is available for all data
  	entities and attributes. In addition, the system can provide
  	the user with the ability to query on wildcards (e.g., “*”,
  	“%”), in each data entry field to broaden or narrow the
  	results of the search. For example, a user may want to find
  	all roads that start with “Peach”, entering “Peach %” in the
  	query field.

• 6.2.1.6 Format Query Results

• Embodiment	Provide the user with the ability to further view the
  	results of a query in both a graphical and/or tabular
  	format.
  Description	If a set of required data is maintained in multiple external
  	systems and their values are different, FMT can indicate
  	the source and values of each conflicting data set.

• 6.2.1.7 Display Multiple Query Results

• Embodiment	Allow the user with the ability to display multiple query
  	results.
  Description	For example, a user may perform a loop trace on a fiber
  	strand, then to perform a second one - while maintaining
  	the original loop trace on screen - in order to compare the
  	results.

• 6.2.1.8 Define Default Views

• Embodiment	Show a defined set of land features and network
  	facilities for each default view.
  Description	Many of these items may be selectable by the user to view
  	information and initiate a data query.

  
  Table 2 indicates the format of the information provided for each default view.

• TABLE 2
  Objects	Indicates the network facility items that FMT can
  	display at the default view
  Behavior	Indicates the selection method (passover or click) that
  	a user can perform to access information about the object
  Attributes	Indicates the data attributes that FMT can display
  Displayed	if the object is selected
  Default View	(Y = Yes) Indicates that FMT can automatically
  	display the object in the default view
  	(N = No) Indicates that FMT can not automatically
  	display the object in the default view, but is available
  	at a user's request (e.g., user may turn object on or off)
  Additional	Provides information unique to the object
  Information

• 6.2.1.8.1 Default View by User Type
• FMT can provide the administrative ability to associate a user with a specific role type and geographic area. Examples of role types include, but are not limited to, Facility Planners, InterOffice Planners, etc. Examples of geographical areas include, but are not limited to, State, District and Wire Center. Based on users' defaults, FMT can provide default functionality and graphical views.
• 6.2.1.8.2 Nine State Region
• FMT can provide a default view of a Nine-State region, which includes Alabama, Florida, Georgia, Kentucky, Louisiana, Mississippi, North Carolina, South Carolina, and Tennessee. Other regions may be provided. FIG. 4 suggests this concept.

• 		Attributes	Default
  Objects	Behavior	Displayed	View	Additional Information

  Land

  State Boundaries	N/A	N/A	Y
  State Names	N/A	N/A	Y
  (Abbreviation)
  District	Passover	District Name	Y
  Boundaries	District
  	Area
  Major Cities	N/A	N/A	Y
  Interstate	N/A	N/A	N
  Highways, with
  designation #
  Other Territory	N/A	N/A	N

  Facilities

  Fiber Routes (IOF	Click	Fiber Sheath	N	Shown as a result of a
  only)		Attributes of		query
  		first sheath
  Fiber Strands	Passover	Fiber Strand	N	Shown as a result of a
  (IOF and Loop)		Name		query
  	Click	Fiber Strand
  		Attributes
  Central Office	Passover	Central Office	N
  Locations		Name
  	Click	Central Office
  		Attributes
  Central Office	N/A	N/A	N	If Central Office Name is
  Names				displayed, Central Office
  				Location passover feature
  				is disabled

• 6.2.1.8.3 Multi State
• FMT can provide a default multi-state view comprising an originating state and all the states that border the originating state. FIG. 5 suggests this concept.

• 		Attributes	Default
  Objects	Behavior	Displayed	View	Additional Information

  Land

  State Boundaries	N/A	N/A	Y
  State Names	N/A	N/A	Y
  (Abbreviation)
  District	Passover	District Name	Y
  Boundaries	District
  	Area
  Interstate	N/A	N/A	Y
  Highways, with
  designation #
  State Highways,	N/A	N/A	Y
  with designation #
  Major Cities	N/A	N/A	Y
  Other territory	N/A	N/A	Y
  Numbered	Click	NPA #	N
  Planning Area
  (NPA)

  Facilities

  Fiber Routes (IOF	Click	Fiber Sheath	N	Shown as a result of a
  only)		Attributes of		query
  		first sheath
  Fiber Strands	Passover	Fiber Strand	N	Shown as a result of a
  (IOF and Loop)		Name		query
  	Click	Fiber Strand
  		Attributes
  Central Office	Passover	Central Office	N
  Locations		Name
  	Click	Central Office
  		Attributes
  Central Office	N/A	N/A	N	If Central Office Name is
  Names				displayed, Central Office
  				Location passover feature
  				is disabled

• 6.2.1.8.4 Single State
• FMT can provide a default single state view comprising a single state and partial boundaries of adjacent states. FIG. 5 illustrates the concept.

• 		Attributes	Default
  Objects	Behavior	Displayed	View	Additional Information

  Land

  State Boundaries	N/A	N/A	Y
  State Names	N/A	N/A	Y
  (Abbreviation)
  District	N/A	N/A	Y
  Boundaries
  District Names	N/A	N/A	Y
  Interstate	N/A	N/A	Y
  Highways, with
  designation #
  State Highways,	N/A	N/A	Y
  with designation #
  Major Cities	N/A	N/A	Y
  Water Bodies	Passover	Water Body	Y
  		Name
  Other territory	N/A	N/A	Y
  County	Click	County Name	N
  Boundaries
  County Names	N/A	N/A	N	If County Name is
  				displayed, County
  				Boundary click feature is
  				disabled
  Numbered	Click	NPA #	N
  Planning Area
  (NPA)
  Exchange	Click	Exchange #	N
  Local Access Toll	Click	LATA #	N
  Area (LATA)
  Airports	N/A	N/A	N
  Landmarks	N/A	N/A	N

  Facilities

  Fiber Routes (IOF	Click	Fiber Sheath	Y
  only)		Attributes of
  		first sheath
  Fiber Strands	Passover	Fiber Strand	N	Shown as a result of a
  (IOF and Loop)		Name		query
  	Click	Fiber Strand
  		Attributes
  Central Office	Passover	Central Office	N
  Locations		Name
  	Click	Central Office
  		Attributes
  Central Office	N/A	N/A	N	If Central Office Name is
  Names				displayed, Central Office
  				Location passover feature
  				is disabled

• 6.2.1.8.5 District
• FMT can provide a default District view comprising the District and partial boundaries of adjacent Districts. FIG. 5 illustrates the concept.

• 		Attributes	Default
  Objects	Behavior	Displayed	View	Additional Information

  Land

  State Boundaries	N/A	N/A	Y
  State Names	N/A	N/A	Y
  (Abbreviation)
  District	N/A	N/A	Y
  Boundaries
  District Names	N/A	N/A	Y
  Wire Center	Passover	Wire Center	Y
  Boundaries		Name
  Interstate	N/A	N/A	Y
  Highways, with
  designation #
  State Highways,	N/A	N/A	Y
  with designation #
  Major Cities	N/A	N/A	Y
  Water Bodies	Passover	Water Body	Y
  		Name
  Other territory	N/A	N/A	Y
  County	Click	County Name	N
  Boundaries
  County Names	N/A	N/A	N	If County Name is
  				displayed, County
  				Boundary click feature is
  				disabled
  City Boundaries	Click	City Name	N
  City Names	N/A	N/A	N	If City Name is displayed,
  				City Boundary passover
  				feature is disabled
  Zip Code	N/A	N/A	N
  Boundaries and
  Zip Code
  Numbered	N/A	N/A	N
  Planning Area
  (NPA)
  Boundaries and
  NPA #
  Exchange	N/A	N/A	N
  Boundaries and
  Exchange #
  Local Access Toll	N/A	N/A	N
  Area (LATA)
  Boundaries and
  LATA #
  Airports	N/A	N/A	N
  Landmarks	N/A	N/A	N

  Facilities

  Fiber Routes (IOF	Click	Fiber Sheath	Y
  only)		Attributes of the
  		first sheath
  Fiber Strands	Passover	Fiber Strand	N	Shown as result of a query
  (IOF and Loop)		Name
  	Click	Fiber Strand
  		Attributes
  Central Office	Passover	Central Office	Y
  Locations		Name
  	Click	Central Office
  		Attributes
  Central Office	N/A	N/A	N	If Central Office Name is
  Names				displayed, Central Office
  				Location passover feature
  				is disabled

• 6.2.1.8.6 Wire Center
• FMT can provide a default single Wire Center view comprising the Wire Center and partial boundaries of adjacent Wire Centers. FIG. 6 suggests the concept.

• 		Attributes	Default
  Objects	Behavior	Displayed	View	Additional Information

  Land

  State Boundaries	N/A	N/A	Y
  State Names	N/A	N/A	Y
  (Abbreviation)
  District	N/A	N/A	Y
  Boundaries
  District Names	N/A	N/A	Y
  Wire Center	N/A	N/A	Y
  Boundaries
  Wire Center	N/A	N/A	Y
  Names
  Interstate	N/A	N/A	Y
  Highways, with
  designation #
  State Highways,	N/A	N/A	Y
  with designation #
  Major Cities	N/A	N/A	Y
  Water Bodies	Passover	Water Body	Y
  		Name
  Other territory	N/A	N/A	Y
  City Boundaries	N/A	N/A	Y
  City Names	N/A	N/A	Y
  Railroads	N/A	N/A	Y
  County	Click	County Name	N
  Boundaries
  County Names	N/A	N/A	N	If County Name is
  				displayed, County
  				Boundary click feature is
  				disabled
  Zip Code	N/A	N/A	N
  Boundaries and
  Zip Code
  Numbered	N/A	N/A	N
  Planning Area
  (NPA)
  Boundaries and
  NPA #
  Exchange	N/A	N/A	N
  Boundaries and
  Exchange #
  Local Access Toll	N/A	N/A	N
  Area (LATA)
  Boundaries and
  LATA #
  Tax Area	N/A	N/A	N
  Boundaries and
  Tax #
  Airports	N/A	N/A	N
  Landmarks	N/A	N/A	N

  Facilities

  Fiber Routes (IOF	Click	Fiber Sheath	Y
  and Loop)		Attributes of the
  		first sheath
  Fiber Strands	Passover	Fiber Strand	N	Shown as result of a query
  (IOF and Loop)		Name
  	Click	Fiber Strand
  		Attributes
  Central Office	Click	Central Office	Y
  Locations		Attributes
  Central Office	N/A	N/A	Y
  Names
  Remote Terminal	Passover	Remote	N	Shown as the result of a
  Locations		Terminal Name		query
  	Click	Remote
  		Terminal
  		Attributes
  Remote Terminal	N/A	N/A	N	If Remote Terminal Name
  Names				is displayed, Remote
  				Terminal Location
  				passover feature is
  				disabled
  Conduit Runs	Click	Conduit	N	Currently, this
  		Attributes		information is available
  				only in the Western States

• 6.2.8.1.7 Street Level
• FMT can provide a default view comprising street segments. FIG. 7 and FIG. 8 suggest the concept.

• 		Attributes	Default
  Objects	Behavior	Displayed	View	Additional Information

  Land

  State Boundaries	N/A	N/A	Y
  State Names	N/A	N/A	Y
  (Abbreviation)
  District	N/A	N/A	Y
  Boundaries
  District Names	N/A	N/A	Y
  Wire Center	N/A	N/A	Y
  Boundaries
  Wire Center	N/A	N/A	Y
  Names
  Interstate	N/A	N/A	Y
  Highways
  State Highways	N/A	N/A	Y
  Major Cities	N/A	N/A	Y
  Water Bodies	Passover	Water Body	Y
  		Name
  Other territory	N/A	N/A	Y
  City Boundaries	N/A	N/A	Y
  City Names	N/A	N/A	Y
  Street Right of	N/A	N/A	Y
  Ways
  Street Names	N/A	N/A	Y
  Railroads	N/A	N/A	Y
  Parcels	N/A	N/A	N
  County	Click	County Name	N
  Boundaries
  County Names	N/A	N/A	N	If County Name is
  				displayed, County
  				Boundary click feature is
  				disabled
  Zip Code	N/A	N/A	N
  Boundaries and
  Zip Code
  Numbered	N/A	N/A	N
  Planning Area
  (NPA)
  Boundaries and
  NPA #
  Exchange	N/A	N/A	N
  Boundaries and
  Exchange #
  Local Access Toll	N/A	N/A	N
  Area (LATA)
  Boundaries and
  LATA #
  Tax Area	N/A	N/A	N
  Boundaries and
  Tax #
  Communities	N/A	N/A	N
  Airports	N/A	N/A	N
  Parks-Lands	N/A	N/A	N
  Landmarks	N/A	N/A	N

  Facilities

  Fiber Routes (IOF	Click	Fiber Sheath	Y
  and Loop)		Attributes of
  		first sheath
  Fiber Strands	Passover	Fiber Strand	N	Shown as result of a query
  		Name
  	Click	Fiber Strand
  		Attributes
  Loops and Length	N/A	N/A	Y
  Splices and	N/A	N/A	Y
  Length
  Poles	N/A	N/A	Y
  Manholes and	N/A	N/A	Y
  Names
  Hand Holes and	N/A	N/A	Y
  Names
  Conduit Runs	Click	Conduit	Y	Currently, this
  		Attributes		information is available
  				only in the Western States
  Central Office	Click	Central Office	Y
  Locations		Attributes
  Central Office	N/A	N/A	Y
  Names
  Remote Terminal	Click	Remote	Y
  Locations		Location
  		Attributes
  Remote Terminal	N/A	N/A	Y
  Names
  Optical Node	Click	Optical Node	Y
  Unit		Unit Attributes
  Fiber Risers	Click	Fiber Sheath	Y
  		Attributes

• 6.2.2 Select and Query Visible Graphical and Network Facility Items
• 6.2.2.1 List Attributes of a Fiber Sheath

• Embodiment	List the data attributes of a fiber sheath.
  Description	FMT can provide the user with the ability to obtain defined
  	information about a fiber sheath. This may be in
  	conjunction with a fiber strand or a conduit, or as a request
  	for information about a specific fiber sheath.
  Data	See Data Embodiments: Fiber Sheath
  System	The system can provide the user with the ability to select a
  Behavior	fiber sheath in a graphical environment or on a query
  	screen. For example, a user selects a sheath in the graphical
  	layer, and FMT displays the fiber sheath's attributes, with
  	an option to further define the search on the query screen
  	environment.
  	On the query screen, the system can provide multiple
  	parameters for a search. For example, a user may want to
  	view fiber sheath(s) by Manufacturer, Type, Year Placed.
  	Based upon the scope and results of the query, the user can
  	be able to further narrow the search. For example, a user
  	enters Manufacturer and Year Placed as parameters, and
  	FMT displays a listing of all sheaths meeting the criteria.
  	The user can then select an individual sheath to review its
  	data attributes.
  	The user can view the sheath position (compliment) from
  	the physical strand view
  Spatial	This is viewed as a simple “Attribute Review”
  Embodiment	embodiment, whereby the user selects a fiber cable in the
  	graphical environment to review its data attributes. This
  	action displays the attributes of the selected fiber cable. In
  	addition, “child” tabs or pages can be made available for
  	review on a fiber cable's attribute review panel, e.g., a
  	Complements page that shows the complements associated
  	with the particular fiber cable. Additional tabs that can be
  	considered as candidates for “child” tabs include Logical
  	Strand and Equipment Locations.
  	Each of these tabs can be considered for additional
  	functionality, such as providing launch points from Spatial
  	to FAS from some of these child attribute review tabs.
  	However, some of these launch points can be available in
  	other places in the application
  User	Select a fiber sheath
  Action(s)	RMC and select ‘Attribute review’ to see sheath
  in Spatial	attributes
  Spatial	Dependent on child tab definitions:
  to FAS I/F	Fiber = none
  	Complement = none
  	Strand = LAUNCH (cable name & strand)
  	Location = LAUNCH (CLLI, Area #, &/or loc_clli)
  I/F Type	Strand = XML (1)
  	Location = XML (1)

• 6.2.2.2 List Attributes of a Fiber Splice

• Embodiment	List the data attributes of a fiber splice.
  Description	FMT can provide the ability for a user to obtain defined
  	information about a fiber splice. This may be in
  	conjunction with an item of DLE equipment, fiber strand,
  	fiber sheath, or as a request for information about a
  	particular fiber splice.
  Data	See Data Embodiments: Fiber Splice

• 6.2.2.3 List Attributes of a Fiber Strand

• Embodiment	List the data attributes of a fiber strand. This applies
  	to both loop and Central Office fiber cables.
  Description	FMT can provide the ability for a user to obtain defined
  	information about a fiber strand. This may be in
  	conjunction with an item of DLE equipment, a fiber sheath,
  	a splice, or as a request for information about a specific
  	fiber strand.
  Data	See Data Embodiments: Fiber Strand
  System	The system can provide the user with the ability to select a
  Behavior	fiber strand in a graphical environment or on a query
  	screen. For example, the user selects a strand and FMT
  	displays the fiber strand's attributes, with an option to
  	further define the search on the query screen.
  	On the query screen, the user can query the data using
  	multiple parameters to define the search. For example, a
  	user may want to view fiber strand(s) by Status, Mode,
  	Beginning or Terminating Wire Center. Based upon the
  	scope and results of the query, the user can be able to
  	further narrow the search. For example, a user enters
  	Beginning Wire Center and Status as parameters, and FMT
  	displays a listing of all fibers meeting the criteria. The user
  	can then select an individual strand to review its data
  	attributes.
  Spatial	Definitions for reference:
  Embodiment	OPEDS Strand: Matches the OPEDS Sheath/IPID
  	Physical Strand: What is in the field - Equipment to splice
  	to splice to equipment
  	Logical Strand: same as physical, except without the
  	splices (equipment to equipment)
  	Derived Strand: Path created by WDM EQUIPMENT.
  User	Select a fiber sheath
  Action(s) in	RMC and select ‘Attribute review’ to see sheath
  Spatial	attributes
  	Select the ‘Strand’ tab to see all strands on sheath
  	Select ‘Details’ push button to see FAS data
  Spatial to	LAUNCH (CLLI, Cable name & strand)
  FAS I/F
  I/F Type	(1) XML

  Scenario:

  User can search for a fiber strand through FAS search, using strand name,

  locations that are fed by the strand and equipments that are

  connected to that strand.

  Users can also select a fiber strand on the spatial tool, and be able to

  see the corresponding tabular data in FAS.

  Data elements that may be displayed on the FAS screen:

  Strand ID (cable/pair), Location(s) where the strand is terminated,

  Equipment associated with strand (including location, strand, slot,

  and SCID), LEAD status and CKID, TIRKS status and CKID,

  User status (probably pulldown including spare, working, restricted,

  defective) and CKID, Interest (LRS), Connector types, Mode

  (single v/s multi), comments, Loss data

• 6.2.2.4 List Attributes of an Equipment Location

• Embodiment	List data attributes for Equipment Locations
  Description	Equipment Locations are defined as either a Central Office
  	(CO) or a Remote Terminal (RT). For a specific Equipment
  	Location, FMT can provide a defined set of data attributes
  	(e.g., address, equipment housed).
  Data	See Data Embodiments: Equipment Location
  System	The system can provide the user with the ability to select
  Behavior	an Equipment Location in a graphical environment or on a
  	query screen. When the user selects an Equipment
  	Location, FMT can provide a listing of the Equipment
  	Location's data attributes. From here, the user can be able
  	to view associated attributes, such as equipment located in
  	the Equipment Location. The user selects an Equipment
  	command button to display a query screen. The user can
  	define the search by entering parameters (e.g., type, status).
  	Based upon the results of the query (e.g., a Mux type was
  	selected), the user can have the ability to further define the
  	search by selecting the equipment item to review its
  	specific data attributes.
  Spatial	User can select equipment location and review its
  Embodiment	attributes.
  	User can opt to review data in FAS from the selected
  	location.
  User	Select equipment location feature
  Action(s) in	RMC and select ‘Attribute review’ to see location
  Spatial	attributes
  	Select ‘Details’ to see FAS data
  Spatial to	LAUNCH (CLLI, Area #, LQC_CLLI)
  FAS I/F
  I/F Type	(1) XML

  Scenario:

  User can search for equipment in FASWEB, using any one of the above

  defined relationship.

  User can also select a location (area number) in spatial number and FAS

  can display all the information about that location in the above defined

  structural order.

  For TIRKS equipments, the above entity relationship may not be correct.

  But the parent object area number/geo code can be there.

• 6.2.2.5 Display Data Attributes of a Conduit

• 	Embodiment	List the data attributes of a conduit
  	Description	FMT can provide the ability for a user to obtain
  		information about a conduit run. This may be in
  		conjunction with a fiber sheath, or as a request
  		for information about a specific run.
  	Data	See Data Embodiment: Conduit
  	System	The system can provide the user with the ability
  	Behavior	to select a conduit in a graphical environment or
  		on a query screen.
  		For example, a user selects a conduit in the
  		graphical layer, and FMT displays the conduit's
  		attributes, with an option to further define the
  		search on the query screen.
  		On the query screen, the user can query the data
  		using multiple parameters to define the search.
  		For example, a user may want to view conduits
  		by Type or Length. Based upon the scope and
  		results of the query, the user can be able to
  		further narrow the search. For example, a user
  		enters Type as a parameter, and FMT displays a
  		listing of all types meeting the criteria.
  		The user can then select a Type to review all
  		conduits of that particular type. Next, the user
  		could select a specific conduit.
  	User	Select a route conduit feature
  	Action(s) in	RMC and select ‘Attribute review’ to see
  	Spatial	fiber sheath attributes associated with the
  		conduit run.
  	Spatial	See section 6.2.2.1 for details
  	to FAS I/F
  	I/F Type	See section 6.2.2.1 for details

• 6.2.2.6 Display Data Attributes of Landbase Features

• 	Embodiment	List the data attributes of Landbase Features
  	Description	FMT can provide the ability for a user to obtain
  		information about landbase features such as
  		streets, parcels, lakes, rivers, etc.
  	Spatial	Simple attribute review of the selected feature
  	Embodiment
  	User	Select a land base feature
  	Action(s) in	RMC and select ‘Attribute review’ to see
  	Spatial	fiber sheath attributes associated with the
  		conduit run.

• 6.2.3 Provide Fiber Calculation Tools
• 6.2.3.1 Determine Number of Splices in a Strand

• 	Embodiment	Determine the number of splices in a strand.
  	Description	May require a change to the facility database
  		model.
  		Facility database does not contain a SPLICE.
  		The number of splices equals the number of
  		sheaths that contain the strand.
  	Data	Strand attributes: Continuity, Splice Type,
  		Default Loss, Measured Loss
  		See Data Embodiments: Fiber Splice
  		Sheath attributes: IPID #
  		Default loss; measured loss
  	System	When the user selects a strand, the system
  	Behavior	can indicate the number of splices.
  		The system can provide this function in both
  		a text and graphical environment.

• 6.2.3.2 Provide Distance Between Points on a Fiber Strand

• 	Embodiment	Provide the ability for a user to select two
  		position points along a fiber strand, and
  		the system can respond with a distance
  		measurement along the fiber strand between
  		the two points.
  	Description	FMT can provide the ability for a user to select
  		any two points along a fiber strand to determine
  		the distance between the points. The distance
  		calculation can include loop distances along the
  		fiber strand path.
  	Data	See Data Embodiments: Fiber Sheath
  	System	FMT can provide the user with the ability to
  	Behavior	view a fiber strand route in the graphical layer.
  		The user can be able to select (i.e. mouse
  		click) two points along the fiber strand path.
  		FMT can indicate the distance.
  	Spatial	Calculate sheath distance along a route between
  	Embodiment	two points.
  		Calculation is a proration of geographic distance
  		and database lengths; where/when intelligent
  		loops features exist (planned for Spatial Age
  		EWO), the sheath distance can calculate based
  		on loop location & lengths, and span lengths.

• 6.2.3.3 Provide Distance Between Geographic Points

• 	Embodiment	Provide the ability for a user to perform a
  		distance measurement between any two
  		points within the current graphical view
  		of the landbase and network facilities.
  	Description	FMT can provide the user with the ability to
  		select any two points within the current
  		graphical view to determine the distance
  		between the points.
  		For any two points within the landbase, a
  		user can have the ability to determine
  		distance between the points.
  		The system can round all distance measure-
  		ments to the nearest foot or meter.
  	Data	Systems: OPEDS
  	System	FMT can provide a view of a fiber strand path
  	Behavior	in the graphical environment. The user can be
  		able to select (i.e. mouse click) a series of
  		points within the graphical view. FMT can
  		indicate the distance.

• 6.2.3.4 Calculate and Display Anticipated dB Loss of Fiber Strand Path

• Embodiment	Calculate anticipated dB loss of a fiber strand
  	path.
  Description	At a user's request, FMT can calculate the
  	anticipated dB loss of a fiber strand path.
  	**Based on loss data associated with fiber
  	splice (See 6.2.3.1):
  	The attenuation property of a sheath plus the
  	splicing loss.
  Data	See Data Embodiments: Fiber Sheath - Attenuation

• 6.2.3.5 Input Loss and Locate Fiber Cut

• 	Embodiment	Input Fiber Loss and locate the Fiber Cut
  	Description	User can input the loss of a fiber and the system
  		can generate where the fiber cut is located.
  	Data	This can be based on the best data which is
  		available. First choice is actual splice loss,
  		second choice is default loss.
  		User can also be shown the measured loss, but
  		no logic can be performed against the measured.
  	Spatial	User Interface (Outage Location function) for
  	Embodiment	user to select fiber strand (fiber name, strand),
  		indicate ring type, side, test location (area #
  		or loc/clli), and enter db loss OR distance reading.
  		Spatial calculates cut location using default loss
  		values, and/or actual loss values if present.
  	User
  	Action(s) in
  	Spatial
  	Spatial	Read stored loss values for fiber strand in FAS.
  	to FAS I/F
  	I/F Type	(2)

• 6.2.3.6 Generate Restoration Order Based on System/User

• Embodiment	Generate Restoration Order/Assigned Restoral Order
  Description	FMT can generate or assign a restoration order that
  	is based on the system or user.
  	It can generate a fiber strand restoration priority
  	list from a graphically selected fiber sheath
  	within an average of 60 seconds or less from a web
  	user interface.
  Data	Need info by sheath and then by ribbon and then by
  	strand.
  Spatial	Provide user interface to select one or more fiber
  Embodiment	sheaths.
  	Spatial then passes strand information (by sheath,
  	ribbon, & strand) to FAS.

• 6.2.4 Generate Fiber Schematics
• 6.2.4.1 Use Automatic Schematics Tool

• 	Embodiment	Add system generated schematics
  	Description	The system can generate high-level graphical
  		view of facility routes with less detail and no
  		landbase. These “stick” schematics
  		should provide the user with a general view of
  		the location, number, and size of fibers in an
  		area, allowing for easy viewing and analysis
  		of a large geographical area.

  	Data	Source (Primary,
  Data	Description	Secondary)

  General	Area of concentration is fiber since not much copper
  Discussion	relief is being done (or authorized) anymore.
  Spatial	Types of schematic generation desired are handled
  Embodiment	by ‘view’ capabilities in COTS.

• 6.2.4.2 Use Manual Schematics Tool

• 	Embodiment	Allow for user created schematics
  	Description	The system can allow a user to create or import
  		existing “stick” schematics, which have no
  		underlying landbase.

• 6.2.5 Integrate Fiber Related Data
• 6.2.5.1 Add Fiber Strand and Derived Wavelength Data

• Embodiment	Allow for Fiber Strand assignment(utilization) data
  	to be added into a source database.
  Description	FMT can establish a source database for fiber strand
  	assignment.
  General	“FMT” can be the de facto data source for fiber
  Discussion	strand data.
  	What may be most important is not ‘assignment’
  	type data but instead ‘utilization’ type data.
  	Spatial creates ‘physical strands’ from OPEDS
  	fiber sheath data using complements. Spatial also
  	creates logical strands, or assemblies, from the physical
  	strand data. An assembly essentially runs from ‘port
  	to port’, providing end-to-end connectivity of a single
  	strand.
  	Spatial can provide an interface to FAS for this ‘logical
  	strand’, or assembly, data.
  Spatial	Build necessary physical & logical strand data from
  Embodiment	OPEDS data. Provide an interface to FAS to acquire
  	logical strand data.

  Data elements that should be displayed on the FAS screen:

  Same as 6.2.2.3.

  Source for all the data elements for this embodiment:

  Same as 6.2.2.3.

See 6.2.2.3
• 6.2.5.2 Provide Connectivity Between Fiber Strand and Equipment Slot

• Embodiment	Track the connectivity between a fiber strand and
  	DLE equipment and display the data attributes
  	for each associated item of equipment and fiber
  	strand.
  Description	For a specific strand, FMT can identify the DLE
  	equipment in which the strand originates and
  	terminates. FMT can also provide a defined set
  	of information regarding each of these items of
  	equipment.
  	Conversely, for a specific item of DLE equipment,
  	FMT can identify the specific strand(s) that is/are
  	either terminating or originating. FMT can also
  	provide a defined set of information regarding
  	each of these fiber strands.
  Data	See Data Embodiments: DLE
  	Equipment, Multiplexer(MUX), LGX,
  	DSX, DLC, ONU, NMLI, Repeater Shelf, Switch,
  	Fiber Strand
  System	The system can provide the user with the ability
  Behavior	to select a strand in a graphical environment or on
  	a query screen, and view the results in a tabular
  	format. FMT can track this information across wire
  	center, district, state, and other boundaries. When
  	the user selects a strand, FMT can provide a list of
  	all equipment (by item or type, depending upon
  	the query) connected to the strand. When the user
  	selects an equipment item or type, the system can
  	provide the equipment item's defined informational
  	attributes, or if type is selected, all items defined
  	by the type. The user can then be able to select an
  	equipment item and review its informational attributes.
  	The system can provide the user with the ability to
  	select a DLE equipment item on a query screen. A user
  	can select an item of DLE equipment and indicate the
  	set of information desired. This may include a listing of
  	all fiber strands terminating to or originating from the
  	item of equipment and/or the equipment's
  	informational attributes.
  	Further
  Spatial	May only need to be able to get to an equipment
  Embodiment	location and see equipment details in FAS. Drill down
  	from fiber sheath to strand to equipment location, then
  	launch FAS.
  User
  Action(s) in
  Spatial
  Spatial	LAUNCH (CLLI, area #, LOC_CLLI)
  to FAS I/F
  I/F Type	(1) XML

  Scope for FAS:

  FAS should store the connectivity information between logical

  fiber strand and equipments (LEIM, TIRKS and FOX). At

  a high level. FAS should be able to answer the following question.

  1. For any given logical fiber strand, list all the equipments

  connected to it.

  2. For any given equipment, list all the logical fiber strand

  connected to it.

  3. For any given logical fiber strand, list all the locations

  connected to it.

  4. For any given location, list all the logical fiber strand

  connected to it.

  A logical fiber strand is a fiber strand between two locations

  (area number). A location (area number) can have multiple CSA/location

  clli. A CSA can have multiple loc-ids. A loc-id can have multiple

  equipments.

  Scenario:

  User can search for an equipment in FASWEB, using any one of the

  above defined relationship.

  User can also select a location (area number) or logical fiber strand in

  spatial and FAS can display all the information about that location or

  the fiber strand in the above defined structural order.

• User can select strand and see all equipment, sheaths, and locations associated with the strand. Conversely the user can select a piece of equipment and see all strands and other pieces of equipment with which it is connected.
• 6.2.5.3 Provide SCID Relationships to Fiber Strand and Equipment Slot

• Embodiment	Provide SCID Relationships to Fiber Strand
  	and Equipment Slot.
  Description	System should be able to form a SCID
  	relationship between a Fiber Strand and
  	an Equipment Slot in order to identify it.
  Data	FAS tool can collect info from TIRKS as
  	to relationship between SCID and strand(s)
  	and equipment. AI: where is data in TIRKS.
  Spatial	FAS provides Spatial with minimum LOC_CLLI,
  Embodiment	cable id & strand in order to kick off a fiber
  	trace of the strand and equipment of interest.

  FAS should capture the relationship between fiber strand and equipment

  in the form of a SCID (Sonic circuit ID) relationship.

  User searches for a piece of equipment; FAS displays selected

  information, including SCID; user can then see all other equipment

  which is also associated with the SCID.

  User selects fiber strand in Spatial and requests a SCID trace; Spatial

  performs appropriate query against FAS and the highlights SCID path

  and associated locations.

• 6.2.5.4 Provide LEAD and TIRKS Circuit IDs

• Embodiment	Provide CKIDs from LEAD and TIRKS
  Description	System can generate CKIDs from LFACS or LFACS
  	and TIRKS by integrating fiber assignment data.

  User searches for fiber strand; FAS displays assignment data based on

  data from these systems. See section 6.2.2.3

  Data elements that should be displayed on the FAS screen:

  See 6.2.2.3

  Source for all the data elements which are required for this embodiment:

  See 6.2.2.3

• 6.2.5.5 Capture Fiber Diversity Information

• Embodiment	Capture Fiber Diversity Information
  Description	Once a user has determined that a strand is diversely
  	routed or a site is diversely fed, FMT can capture the
  	diversity information about the Fiber and capture it
  	into the database. The user can select a type of
  	diversity from a list of diversity types such as sheath,
  	route, CO.
  Data	System: OPEDS
  	Spatial embodiment: user can update FAS database
  	with diversity information. If the user determines that
  	something is diverse using Spatial, then Spatial can
  	update FAS with that data.

  A SINGLE FIBER STAND IS NOT DIVERSELY ROUTED, BUT

  A STRAND CAN BE DIVERSELY ROUTED COMPARED TO

  ANOTHER STRAND. EQUIPMENT CAN BE FED DIVERSELY,

  THUS DIVERSITY DATA SHOULD BE STORED FOR A PIECE

  OF EQUIPMENT

  Scenario:

  User determines that a piece of equipment is of a particular diversity

  type; user navigates to appropriate FAS webpage and enters diversity

  type (by selecting from a list of values)

• 6.2.5.6 Capture Fiber Connections from FOX

• Embodiment	Capture Fiber Connections from FOX
  Description	FMT can integrate with FOX to obtain where the Fibers
  	connect.
  	User can request FOX data for presentation. User can
  	then be able to compare FOX data against FAS data
  	by matching on location and bay/panel/jack. No other
  	logic may be utilized.
  Description	FMT can integrate with FOX to obtain where the Fibers
  	connect.

  Scope for FAS:

  FAS can collect the information about the connectivity between logical

  fiber strand and equipment from the FOX system.

  Scenario:

  (User can search for a logical fiber strand and see all the connected

  devices based on the data obtained from FOX.

  User can also search for a device and see all the equipments attached

  to a logical fiber strand.

  User can also select a fiber strand in spatial and see all the equipments

  attached to it based on the data we got from FOX.)

  User requests FOX data. FAS presents FOX data for a location next to

  appropriate FAS equipment data for that location.

  User then enters appropriate data in the User section of Fiber Strand data.

• 6.2.5.7 Capture a LOC/CLLI and Address from LOC/CLLI System

• Embodiment	Capture a LOC/CLLI and Address from LOC/CLLI
  	System
  Description	FMT can capture, as needed, all LOC/CLLI and
  	Addresses from the LOC/CLLI System.
  Data	System Embodiments: LOC/CLLI

• 6.2.5.8 Capture Easement/ROW Information for Locations from BETS

• 	Embodiment	Capture and Retrieve ROW/Easement data from
  		BETS
  	Description	User can enter the ROW# into the planning layer
  		of FMT and the appropriate data from BETS is
  		retrieved.

• 6.2.5.9 Generate Land Base for Non-OPEDS Converted Wire Centers

• Embodiment	Generate land base for non-OPEDS converted wire
  	centers with the location of central offices, equipment
  	sites and x-boxes from the existing OPEDS land base
  	data.

• 6.2.5.10 Develop Mechanized Processes from Legacy System Sources

• Embodiment	Develop a mechanized process to load data and
  	manage conflicts from separate legacy system
  	sources and user input from local records.
  Description	The system can determine an appropriate source
  	to use to provide existing fiber and equipment
  	attributes.
  	Conflict identification of database and source
  	documents should be easily documented and
  	feedback to the keepers of the source documents
  	should be made as ease as possible.
  Data	See section 7
  	Also capability to upload fiber strand attributes
  	into FAS.

  Scope for FAS:

  From a user's perspective this embodiment can be the same as 6.2.2.3

  with the addition that the user can also have a means of bulk loading

  data into FAS based on data which does not exist in the other source

  databases.

  Scenario:

  See 6.2.2.3

  Data elements that should be displayed on the FAS screen:

  See 6.2.2.3

  Source for all the data elements which are required for this embodiment:

  See 6.2.2.3

• 6.2.5.11 Manage Out of Franchise Fiber and Equipment

• 	Embodiment	Develop a means of managing out of franchise
  		fiber and equipment
  	Description	The telecommunications company may own fiber
  		optic cables and equipment in areas outside of the
  		1600 wire centers. This fiber needs to be shown
  		graphically, and the fibers can be tracked in the
  		tabular tools.
  	Data	The data elements are identical to data for fiber
  		and equipment in franchise.

  
  This information may first be entered in the source databases (EWO and LEIM, etc.)
• 6.2.5.12 Display and Identify CLEC Sheaths and Equipment

• Embodiment	Display CLEC sheaths, strands, and equipment in
  	the graphical and tabular tools
  Description	Competitors may have the right to utilize structures
  	(pole lines, ducts, manholes, cabinets, etc.) Wherever
  	these facilities are identified and entered into a source
  	system by engineering, those facilities must be properly
  	identified in FMT.
  	Facilities which are identified in OPEDS as belonging
  	to other companies may be identified as such in FMT.
  	Equipment which is identified in LEIM and/or TIRKS
  	must be identified as such. The LEIM equipID can carry
  	the intelligence as to which equipment belongs to
  	CLECS, but the standard has not yet been set; as a
  	result, a means of parsing EquipID's and comparing
  	them against a ruleset for determining ownership
  	must be created.

• 6.2.5.13 Allow Entry of Fiber Loss Data
• 6.2.5.13.1 Allow Manual Entry of Fiber Loss Data

• Embodiment	Allow user to enter actual measured loss for a fiber
  	strand
  Description	If a user has measured the loss for a fiber strand,
  	that user should be able to enter that loss information
  	for that strand.

• 6.2.5.13.2 Allow Automatic Entry of Fiber Loss Data

• Embodiment	Allow user to upload measured loss data for a fiber
  	strand
  Description	If a user has measured loss data stored electronically,
  	the system can upload that data and store it.

• 6.2.5.14 Display Measured Loss

• 	Embodiment	Display Measured Loss
  	Description	User can view the measured loss via a webpage or
  		spatial

• 6.2.6 Provide Fibers and Related Equipment Search and Display
• 6.2.6.1 Display Cabinets for Specified Equipment Location

• Embodiment	Display Structures for Specified for Specified Equipment
  	Location.
  Description	System should be able to display appropriate structures
  	that relate to the specified equipment location that is
  	specified by the user.

• 6.2.6.2 Display Devices for Selected Structure—Filter by Type

• Embodiment	Display Devices for Selected Structure and Filter by
  	Type
  Description	User can select a structure and the system can display
  	the devices by type.

• 6.2.6.3 Display Selected Device Attributes

• Embodiment	Display Selected Device Attributes
  Description	User can select a device from the screen or either
  	by navigation or via a search, and the system can
  	display the attributes for that device.
  Data	Data Embodiments: All devices

  User can search for equipment by using different FAS search

  functionalities. Once equipment is selected, FAS can display all the

  attributes of the equipment.

• 6.2.6.4 Display Device Slots and Related Circuits

• Embodiment	Display Device Slots and Related Circuits
  Description	User can select a device, circuit, or fiber from the
  	screen or search for one, and the system can display
  	the appropriate device slots and related circuits.

  Scope for FAS:

  Display the slot and circuit information for a given device.

  All equipment from LEIM and TIRKS can be loaded into FAS; same

  attributes as shown today in FAS can be displayed

  Scenario:

  User can select the equipment through FAS search or through selecting

  a location from Spatial.

• 6.2.6.5 Locate Equipment by Address

• Embodiment	Locate equipment by address
  Description	User can enter an address and the system can display
  	the equipment associated with that address.
  Spatial	Multiple embodiments 1) configure a Equipment
  Embodiment	Location locate - search by address, area #, loc_clli
  	2) configure a street address locate 3) launch FAS from
  	equipment location 4) provide Launch & Locate
  	capability from FAS for street address

  Scope for FAS:

  FAS should allow the user to search for a location using the address.

  User can search against address, CLLL, or AreaNumber/GLC. Address

  includes all possible address attributes, including House Number, street,

  floor/suite

  Scenario:

  Provide a search for searching a location by address.

  Data elements that should be displayed on the FAS screen:

  Display all attributes of a location (CSA/locid)

• 6.2.7 Provide Fibers and Equipment Utilization Monitoring
• 6.2.7.1 Provide CSA Utilization by Service Type

• Embodiment	Provide CSA Utilization by Service Type
  Description	CSA fill data can be created in a similar fashion as the
  	Crossbox Report, which is currently under development
  	in FAS. Users can determine which systems are fully
  	utilized and which systems are underutilized.
  Data	Built on existing interface between FAS and LEAD.

• 6.2.7.2 Provide CSA Alerts to FACILITY PLANNERSs

• Embodiment	Provide FACILITY PLANNERSs with some sort of
  	an alert of a CSA
  Description	Users can receive an alert of CSA when they are
  	logged in to FMT and via email.

  	Data	Data Description	Source (Primary,
  			Secondary)

• 6.2.7.3 Determine Fiber Strand Utilization
• 6.2.7.3.1 Determine Whether Physical Strand is Assigned

• Embodiment	Determine whether physical fiber strands are assigned,
  	spare, or defective.
  Description	The system can store information which indicates
  	whether a physical fiber strand is in use or can be
  	used to provide service.
  Data	Assigned indicates that a fiber is either working or
  	reserved. Assigned in analogous to saying that a
  	fiber is “lit”.
  	Spare indicates that no traffic is transmitted on the
  	fiber strand.
  	Defective indicates that the fiber strand is currently
  	incapable of transmitting data.
  	See Data Embodiments: Fiber Strand

  Scope for FAS:

  General Utilization = Lit fibers/total fibers

  And

  Weighted Utilization = Sum of (Lit Fibers × FKF(lit))/sum of (total

  Fibers × FKF (total Fibers))

• 6.2.7.3.2 Determine Physical and Derived Fiber Strand Utilization

• Embodiment	Determine which physical and derived fiber strands
  	are in use
  Description	The system can store information which indicates if
  	a fiber strand is connected to Wave Division Multi-
  	plexing equipment (WDM or DWDM) which allows
  	data to be transmitted on several distinct wavelengths
  	(lambdas). The system can also store information
  	as to which lambdas are assigned, spare, or defective.
  Data	Assigned indicates that a physical or virtual fiber strand
  	is either currently transmitting data or reserved.
  	Spare ad Defective are defined in 6.2.7.3.1.
  	See Data Embodiments: Fiber Strand

  Scope for FAS:

  Utilization Formula - # of Lit Derived and Physical Fibers/(total number

  of Derived and Physical fibers)

  Data elements that should be displayed on the FAS screen:

  Report can include:

  Total number of fibers; number lit; number spare; number defective;

  number with interest; number otherwise unavailable

• 6.2.7.3.3 Determine Carrier Signal Level Utilization for a Strand

• Embodiment	Determine Carrier Signal Level Utilization for
  	a Strand
  Description	The system can store information which indicates if
  	a fiber strand is connected to Wave Division Multi-
  	plexing equipment (WDM or DWDM) which allows
  	data to be transmitted on several distinct wavelengths
  	(lambdas). The system can also store information
  	as to which lambdas are assigned, spare, or defective.
  Data	Assigned indicates that a physical or virtual fiber strand
  	is either currently transmitting data or reserved.
  	Spare ad Defective are defined in 6.2.7.3.1.
  	See Data Embodiments: Fiber Strand

• Provide matrix report similar to Xbox and/or CSA report. Rows consist of fiber by mode, physical, and derived fiber strands. Columns consist of services such as NMLI, customer OCn ring, Company OCn ring, dry fiber, etc. User can select points in Spatial and designate them as monitoring points; this report can be run at any location and at a monitoring point.
• 6.2.7.3.4 Determine DS0 Equivalent Utilization for Virtual and Physical Fiber Strands

• Embodiment	Determine DS0 Equivalent Utilization
  Description	The system can store information which translates the
  	circuits which are working on a fiber strand to the equiv-
  	alent number of DS0's based on conversion values.
  Data	Assigned indicates that a physical or virtual fiber strand
  	is either currently transmitting data or reserved.
  	Spare ad Defective are defined in 6.2.7.3.1.
  	See Data Embodiments: Fiber Strand

• Embodiments may use DS3 equivalent rather than DS0 equivalent. Based on categorizations in previous embodiment and a conversion table, the number of DS3 equivalents for a strand can be determined.
• 6.2.7.4 Determine Fiber Sheath Utilization

• 	Embodiment	Determine Utilization of each Fiber Sheath
  	Description	User can select a fiber sheath to see the
  		utilization.
  	Data	See Data Embodiments: Fiber Sheath
  	General	Net result - utilization calculations are done
  	Discussion	using data stored in or available to FAS.
  	Spatial	User may select a fiber strand(s) (via fiber sheath)
  	Embodiment	on which to perform utilization. Spatial passes
  		logical fiber information (cable id, strand)
  		to FAS to perform utilization function.

• 6.2.7.5 Determine Utilization Trend Analysis

• 	Embodiment	Determine Utilization Trend Analysis
  	Description	User can view the current or past trends of
  		utilization among a given search parameter,
  		i.e. district, state, etc.

  	Scope for FAS:
  	For a location and a monitoring point. FAS can keep high level
  	utilization data for trend analysis.

• 6.2.7.6 Determine Fiber Cross-Section Alerts

• Embodiment	Determine Fiber Cross-Section Alerts
  Description	User can receive an alert or warning for specified
  	fills on strand and bandwidth utilization once they
  	have reached the specified number that is set as
  	the default or warning level. These alerts can be
  	based on fiber sheath and on cross section (route,
  	a combination of fiber sheaths in the same geographic
  	area).
  	Ex. “Send me an email notice when this cross section
  	has only 6 spare fibers remaining.”
  	Note: Spare should not include defects.
  Data	Default values and warning level can be set for
  	specified fills; and users can receive these warnings
  	once the data has reached or past that level.
  Spatial	Provide a feature, “Monitor Point”, that is placed
  Embodiment	by the user. This feature identifies one or more
  	fiber sheaths to be monitored. User may define
  	sheaths for inclusion (association with) in the feature
  	by selecting sheaths or by drawing a polygon around
  	desired sheaths. User may optionally define which
  	specific strands of this group they wish to monitor.
  	User also defines the maximum fill (or minimum spare)
  	threshold to issue an alert. Frequency of monitoring is
  	specified by (user specified or default frequency)
  	A) Spatial passes this information (monitor id, CLLI, &
  	list of cable id and strand, min/max, etc.) to FAS for
  	monitoring.
  	Spatial provides a “Cross Section Alert” theme
  	(view) customized to show only those features of interest
  	to a user who wishes to see status of these features.
  	The Monitor Point feature is set to display in one color
  	if monitor level is safe and a different color if the monitor
  	level is in danger. There is no ‘automatic notification’
  	of alerts in Spatial; it is up to the user to invoke this
  	theme whenever the user desires to do so.
  	B) When this “Cross Section Alert” theme is invoked,
  	Spatial queries a view/table provided by FAS to set the
  	required displays for the Monitor Point feature.
  	User can select the monitor feature and launch FAS to see
  	details for the selected cross section.
  Spatial	A) NOTIFY (monitor id, CLLI, list of cable id/strand,
  to FAS I/F	min/max)
  	B) QUERY Table (monitor id, group status)
  	C) LAUNCH (CLLI, list of cable id/strand)
  I/F Type	A) (1) XML (new action = NOTIFY)
  	B) (2) View/table (required)

  Embodiments can use the spatial age, to define the monitoring fiber

  cross-section group. Spatial age can find the fiber strands, which

  are inside this user-defined group, and can send the FAS strand data

  to FAS. FAS can start monitoring that group based on the fiber

  utilization logic

  FAS also can create a mechanism to provide this information to

  Spatial age.

  FAS may not have the capability to create a monitoring spatial group.

  It may always be done from Spatial.

  But FAS may have the capability to define what is Red, Yellow and

  Green.

  As part of reports, spatial engine can send a list of elements to FAS

  for which we need the alert information. That can enable Spatial to

  display the data in a color coded form.

  For example, spatial can send list of fiber strand and FAS can send the

  color-coded information for those FAS strand. Based on that Spatial can

  display a graphical view of the report.

  Scenario:

  User can define a cross section in the spatial tool. Once a cross

  section is defined, spatial tool can provide FAS with the entire

  fiber strand information, which is part of that cross section.

  Based on the fiber strand utilization the corresponding cross section

  can be color-coded. FAS can also provide alerts on the main page based

  on the cross section status.

  Data elements that should be displayed on the FAS screen:

  For a tabular view of a cross section, what data elements may be

  displayed in FASWEB module.

  Monitoring Point (cross section) can be shown along with its various

  forms of utilization as defined in sections 6.2.7.3

  Monitoring Points should include Locations, and user can suppress alerts

  similar to MG alert suppression for Xbox in FAS today.

  Source for all the data elements which are required for this embodiment:

  See section 6.2.7.3 for different types of utilization. Alerts can

  be based on % utilization based on physical strand.

  For a Location, FAS may have knowledge of strands which are associated

  with it based on 1)OPEDS sheaths which feed an electronics location

  and 2) Spatial selection of one or more sheaths in the same general

  geographic area. There is a natural relationship between sheath and

  logical strand.

• 6.2.7.7 Determine MUX Utilization

• Embodiment	Determine MUX Utilization
  Description	User can determine MUX utilization to determine
  	fiber utilization
  	This is “iView” mux utilization which is
  	based on a worst case combination of LEIM,
  	LEAD, TIRKS, and User DS1 and above data. User
  	can pull reports based on this utilization as well
  	as see this data in the existing FAS view of
  	equipment.

• 6.2.7.8 Monitoring Point

• Embodiment	Monitoring Point
  Description	Spatial may need to allow user to place a monitoring
  	Point to see and define strands to be monitored
  	for utilization at a particular route cross-section.
  	Locations are, by default, Monitoring Points. The user
  	can define additional Monitoring Points and assign
  	those points a name and some comments.

• 6.2.7.9 Xbox and CSA History and Trending

• Embodiment	Xbox and CSA History and Trending reports
  Description	Maintain high level Xbox and CSA utilization
  	data for up to 5 years
  Data	Based on the original concept for the Xbox reports,
  	monthly data for Xbox and CSA can be maintained
  	for 24 months; quarterly data can be maintained
  	for an additional 3 years. This data is essentially
  	the summary row for each of the services for
  	the Xbox or CSA.
  	Based on past utilization, generate trendline
  	so that user can estimate future needs.

• 6.2.8 Provide Fiber Tools and Reports
• 6.2.8.1 Generate Equipment Site Activity Log

• Embodiment	Create a Site Maintenance Package
  Description	A site maintenance package consists of easement
  	information for a site (location clli) and the
  	structures, which exist there. The user also
  	needs to be able enter comments along the
  	lines of where to park, restrictions, etc.
  Data	Easement, any comments/restrictions, all TEO
  	and/or jobs Filed by CSA
  	Need additional jobs besides those which are
  	stored in LEIM (site prep job, etc.)
  Spatial	MOSTLY FAS, but not necessarily all. User can
  Embodiment	Launch FAS to see Location.

  Scope for FAS:

  Site maintenance package is maintenance package information for

  a CSA. All the data may be manually updated/entered by users.

  FAS MAY MAINTAIN A LIST OF LRS'S WHICH ARE

  ASSOCIATED WITH A LOCATION. HIGH LEVEL DATA

  FROM THE LRS, INCLUDING EWO NUMBER, SCOPE OR

  WORK, JOB CLOSED DATE CAN BE STORED.

  THIS DATA MAY BE AUTOMATIC, ASSUMING THAT

  USER PROPERLY ENTERS ATTRIBUTES IN LRS.

  USER MAY ALLOW ENTER COMMENTS FOR THE

  LOCATION. USERS CAN ALSO ENTER ADDITIONAL

  HISTORICAL DATA ALONG THE SAME LINES AS

  THAT WHICH CAN BE AUTOMATICALLY GENERATED

  USING THE LRS.

  Scenario:

  User can select a CSA either through search or through spatial.

  Once a CSA is selected, then user can enter certain information

  as maintenance log, such as notes, which can be captured with

  updated date and user name.

• 6.2.8.2 Allow User to Determine Fiber Strand Diversity

• Embodiment	Determine Diversity of a Fiber Strand
  Description	A strand is route-diverse when it is not in or on
  	the same supporting structure (conduit). A strand
  	is CO-diverse when it is route-diverse and
  	terminates in two Central Offices.
  	Users can determine whether a fiber strand is
  	non-diverse, CO-diverse or route-diverse with
  	tabular and graphical data.
  Data	Systems: OPEDS
  	There may be a desire to know the relationship
  	of one system assembly to another and the
  	diversity of one system assembly to another.
  Spatial	1) Spatial provides a ‘diversity check’ trace
  Embodiment	function to allow user to determine ‘sheath
  	level’ diversity. The diversity check provides
  	a visual (via highlights) indicator as well as trace
  	results dialogs showing ‘common’ paths
  	in the trace. 2) A diversity check can also be
  	launched from FAS. FAS provides a set (pair) of
  	logical fibers (cable name(s), strand(s)), each
  	terminating loc/clli (or area #), and LGX port
  	data (this may need to be accessed via connector
  	type 2).

  Scope for FAS:

  Spatial can provide a list of strand and FAS can provide the list

  of associated equipment, shelf and slot for that strand.

  FAS can allow the user to launch spatial for given equipment. FAS

  can send the list of strands based on the scid, which allow

  spatial to display the ring.

  Based on 6.2.5.5 user can enter diversity information for a piece

  of equipment.

  Scenario:

  User selects location in Spatial. User navigates to FAS and looks

  up fiber information for equipment at that location. In Spatial

  user then runs a diversity check for the fiber strand(s). Once user

  determines diversity type user enters that type in the FAS

  equipment screen. Diversity type is from LOV or “other” which

  allows the user to manually enter some other value.

  Data elements that should be displayed on the FAS screen:

  Equipment (from FAS equipment database), feeding fiber strand(s),

  and diversity type

  Source for all the data elements which are required for this embodiment:

  FAS equipment database (LEIM and TIRKS), Spatial Age, User

• 6.2.8.3 Assign Restoration Priority for a System Assembly

• Embodiment	Assign a restoration priority for a System Assembly.
  Description	System can assign a priority based on a maintained
  	list of values. This priority number can be used when
  	the restoration order is generated in the event of an
  	emergency restoration (see 6.2.3.6 Generate Restoration
  	Order Based On System/User)

• 6.2.8.4 Assign Reservation for a Fiber Strand

• Embodiment	Assign Reservation for a Fiber Strand
  Description	User can reserve fiber for a LRS.
  	The word Reserve is now replaced with the concept of
  	“Interest.” An interest in a strand is established via a LRS.

  User can establish an “interest” in a fiber strand via a LRS. An interest

  indicates that the strand may be used in the future if the LRS is executed,

  but there is not guarantee that the strand can be used, thus it is not

  reserved. Interests are only created from within FAS, not from LEIM,

  TIRKS, or any other system.

  Data elements that should be displayed on the FAS screen:

  See LRS and 6.2.2.3

• 6.2.8.5 Provide Numbering Administration Tools
• 6.2.8.5.1 Add System Numbering Tool

• Embodiment	Add an automated DLC/mux numbering tool
  Description	The system can provide a means to administer DLC system
  	and mux numbers. FAS can stored existing system
  	numbers and planned system numbers by equipment type.
  	FMT can not attempt to predict next usable number.

  Scope for FAS:

  Four alpha numeric characters after the # symbol is the system

  number. FAS should develop a system number maintenance module.

  System number may be unique for a given WC. FAS should provide

  mechanism to propose new system number and display existing

  system numbers.

  Numbering scheme is determined by equipment type; system helps

  user understand which numbers within a scheme are in use and which

  ones are available

  Scenario:

  During the LRS lifecycle the user determines that a new system must

  be created. User enters appropriate equipment data (including category)

  in the LRS and then wants to know what the system number should be,

  so he clicks a “find system number” link.

  Data elements that should be displayed on the FAS screen:

  Equipment type, used system number(s), next available system number

  Source for all the data elements which are required for this embodiment:

  LEIM

• 6.2.8.5.2 Add SCID Administration Tool

• Embodiment	Add a tool for managing SCID assignments
  Description	The system can provide a means of administering SCID's
  	for districts and throughout the company.

  For a given state, FAS can store all the valid SCIDs and also can be able

  to find the next SCID. FAS can provide a mechanism to assign a SCID

  based on the FACILITY PLANNERS request.

  Rule for SCID's may be as follows:

  6 characters, N1-N6.

  N1 indicates company division, typically N for network

  N2 indicates state

  N3-N5 is alphanumeric

  N6 designates ring type (L, G, R, P for Loop, Smartring . . . )

  Source for all the data elements which are required for this embodiment:

  Existing SCIDs from TIRKS and LEIM

• SCID Log Tool—General
• FMT can provide users the ability to view SCID assignments, select a new SCID assignment, and to unassign a SCID that has not been or no longer used. FMT can also provide Staff Support persons the ability to establish rules for SCID assignments. SCID can have a Status transition as follows:
SCID Status Codes:

• 	CODE	DESCRIPTION
  	N	New, never assigned or used - available for assignment
  	H	Hold, do not assign
  	A	Assigned
  	W	Working/Used
  	X	Deleted - not found working
  	U	Unassigned

SCID Status Transition:

• FROM	TO
  STATUS	STATUS	ACTION	DESCRIPTION
  <null>	N	ADD SCID	Process that adds SCIDs to log to make
  			available for use.
  <null>	H	HOLD SCID	Manual DBA addition of SCIDs to Log
  or N			or status change.
  <null>,	A	ASGN SCID	Assigned for use. SCID added or updated
  N, U, or X			in SCID_LOG. If SCID had a status of U
  			or X, the log data is stored in
  			SCID_History before update.
  any	W	UPDATE SCID LOG	Batch process run periodically to
  			determine if SCID is still in FMT data.
  			SCID is found in FMT (LEIM or TIRKS)
  			data. SCID added or updated in
  			SCID_LOG.
  A	U	UNASGN SCID	User that initially asssigned SCID
  			determines that it is not required and
  			Unassigns it. SCID Status is changed
  			from ‘A’ to ‘U’ and status date updated.
  W	X	UPDATE SCID LOG	Batch process run periodically to
  			determine if SCID is still in FMT data.
  			SCID is not found in FMT (LEIM or
  			TIRKS) data.

SCID Log Tool—ASGN SCID

• Embodiment	Provide New SCID Assignment
  Description	User can select ASSIGN SCID function that can allow
  	input parameters to be selected or changed and the next
  	avaialable SCID to be assigned. The next SCID assignment
  	that meets the parameters can be assigned the lowest
  	unassigned SCID.
  Data	The data to be selected by the user to determine next SCID
  	assignment is a follows:
  	1) State
  	2) District
  	3) SCID Type
  	The data to be possibly captured for the SCID assigned is:
  	1) User
  	2) Date
  	3) LEC Installation ID
  	4) Equipment
  	5) Authorization Number
  	6) Address
  	7) Service Date
  ASGN SCID	Upon selecting the ASGN SCID function, the user may be
  Screen	presented with an ASGN SCID screen. Item are as follows:
  	1) State - drop-down of 9 BST States defaulted to user's
  	State
  	2) District - drop-down of current BST Districts for the
  	selected State defaulted to user's District
  	3) Type - drop-down of valid SCID type codes &
  	descriptions from LOV_SCID_TYPE table
  	Upon selection of the above, the system can select the next
  	available SCID for assignment (see SCID assignment) and
  	present the SCID to the user.
  	The user can then optionally enter:
  	1) LEC Installation ID
  	2) Equipment
  	3) Authorization Number
  	4) Address
  	5) Service Date
  	Upon selecting an “ASGN SCID” button, the SCID can be
  	assigned. Upon assignment the ASGN SCID button can
  	change to UPDATE SCID. The user may update any of
  	the 5 optional items and hit the UPDATE SCID button to
  	save the changes. (Note: Once assigned, the State, District,
  	Type codes may not be changed.)

SCID Assignment:
• FMT can create a new SCID by:
• Select from SCID_Log any SCID with a first character, second, third and last characters matching user selection and SCID assignment rules:
• • 1) status of New. If found, use this SCID. If none found then,
  • 2) status of Unassigned and a Status Date where ‘today’ minus Status
    • Date in days is greater than LOV_FMT_PARAMS: SCID_Unasgn_Age. If found, use this SCID. If none found then,
  • 3) status of Deleted and a Status Date where ‘today’ minus Status Date in days is greater than LOV_FMT_PARAMS: SCID_Deleted_Age. If found, use this SCID. If none found then,
  • 4) assign a new SCID:
• A new SCID is formed by concatenating SCID_First_Char+SCID_Second_Char+SCID_Third_Char+(SCID_ASGN: SCID Num+1)+SCID_Last_Char
• Using SCID assignment rules (see logical data model embodiments).
• The FMT system may assign a new SCID “on the fly” or develop a batch process to add new SCID to the log on a periodic basis (ADD SCID function).
• SCID Log Tool—VIEW SCID LOG

• Embodiment	Display SCID Data From Log Based On User Specified
  	Attributes
  Description	User can select for display the SCID log data by using
  	various filters.
  	State; District; Equipment; Status.
  Data	See Logical Data Model Embodiments for SCID_LOG.

• SCID Log Tool—UNASGN SCID

• Embodiment	Change The Status On A SCID From Assigned To
  	Unassigned
  Description	User can input a SCID or select a SCID from a generated
  	list of SCIDs with Status = Assigned created by the current
  	user. Data for the SCID is displayed on the screen and a
  	UNASGN Button allows the user to Unassign. System
  	changes Status to ‘U’ for unassigned and records
  	the date. The Unassign function can only be performed by
  	the user that Assigned the SCID.
  Data	N/A

• SCID Log Tool—UPDATE SCID LOG

• Embodiment	A Process To Update SCIDs in the SCID Log
  Description	This process can periodically update the SCID status in the
  	SCID Log. This may require a comparison of SCIDs
  	actually in FMT and the Log. For SCID in the Log with a
  	Status of Working that are not found in FMT, the status is
  	updated to Deleted. For SCIDs that are found in FMT,
  	then status is updated to Working.
  Data	SCID_Log Status

• 6.2.8.6 Enhance Existing Database, Posting & Viewing Tools

• Embodiment	Enhance the existing OPEDS Facility Management
  	database, posting & viewing tools
  Description	The system can support additional fiber functionality:
  	Inter-wire center connector, fiber splice feature, graphical
  	location of fiber in Underground records, and
  	CSA/Equipment Location features.
  Spatial	Place holder: List of OPEDS facility features to load to
  Embodiment	FMT:
  	COMPL: complements for all loaded features
  	CONDUIT: all 4c & 45c
  	DRAWING INDICATORS: all
  	FOREIGN POLE: (intelligent only) TBD
  	FIBER: all
  	MANHOLE: all 4c & 45c
  	**Equipment Location**: create for each unique
  	area # in MX
  	MX: see above for reference
  	POLE: all
  	TERM (distribution terminal table): If fed by fiber cable
  	XCONN: any with an OUT count
  	ROUTE MANHOLE: all
  	ROUTE CONDUIT: all
  	FIBER SPLICE: all
  	XWC SPLICE: all

• 6.2.8.7 Develop Tools to Populate the Facility Data Enhancements

• Embodiment	Develop tools to populate the facility data
  	enhancements
  Description	Develop tools to automatically populate the facility data
  	enhancements and to provide manual effort to populate
  	remaining data that cannot be accomplished mechanically

• 6.2.8.8 Develop Tools to Add Existing Fiber and CSA Locations

• Embodiment	DEVELOP TOOLS TO ADD EXISTING FIBER AND
  	CSA LOCATIONS AUTOMATICALLY/
  	MANUALLY
  Description	Develop tools to add existing fiber and CSA locations,
  	along with key structure and connectivity
  	features/attributes to the FMT SDO Database, both
  	automatically from OPEDS converted wire centers, and
  	manually for non-OPEDS converted wire centers.
  Spatial	Provide capability to place ‘planned existing <feature>’
  Embodiment	whenever necessary in addition to creating from OPEDS
  	data via SDL. SDL creates Equipment Locations from MX
  	data (see note above in 6.2.8.6)

• If no western state fiber conversion is going to take place, additional scripts can be required to allow users to import ArcView files.
• 6.2.8.9 Allow User to Perform Fiber Traces

• Embodiment	Allow user to perform fiber traces
  Description	The user should be able to perform a trace to a fiber by
  	entering a given attribute or criteria for the fiber.
  Spatial	Multiple trace functions are available to user via selection
  Embodiment	from physical sheath or user input. Route trace, highlight
  	route, diversity check, fiber cut location, etc.

• 6.3 Planning Layer Functionality
• 6.3.1 LRS Overview
• Planning may occur in many fashions and by many names. In order to avoid confusion, this document may use some new terms to describe the planning process.
• The basic planning unit is the Location Relief Strategy (LRS). When creating a LRS, the resource planning system may automatically create or allow the user to select an existing planning Need. Multiple Alternative LRSs may be created for one Need. While many alternative relief strategies may or may not exist, according to some embodiments of the present invention, only of the LRSs is defined as a primary LRS for a need, with one or more of the other LRSs defined as alternate LRSs for the need. A LRS may be related to one or more Point Of Interest (POI). LRSs may be grouped into a View. FIG. 9 demonstrates the relationship between these concepts.
• A POI is a particular location where a need exists or is predicted. POI is a geographic location, which may be a point, a polygon, or a group of noncontiguous points and/or polygons. For example, an existing building needs additional fiber capacity or a customer purchases a service, which requires diversification.
• A LRS describes a means of fulfilling a need at one or more particular POIs at a given time. For example, a LRS may call for placing 2000 ft of 48-strand fiber or for the rearranging of existing fiber splices. Whenever an alternative LRS exists, one of the LRS's can be designated as Primary. By default, when a search is executed, only those LRS's, which are designated as Primary, are to be considered for the search.
• A View is a collection of Primary LRS's (by default, but a View may be a collection of Primary or Alternative LRS's with an override). Examples of Views could include a three year construction plan View, a route View, a wire center View, etc. Headquarters staff can have the ability to create default View definitions, but individual users can also have the ability to create View definitions.
• FIG. 10 describes in detail the functions of LRS within FMT.
• 6.3.1.1 LRS States

• State	Definition
  PRIVATE	A LRS is initially created in the Private state. Only the creator or a super-user can
  	see it and modify a LRS in this state.
  PUBLISH	In this state, all users can see the LRS in a Tabular list and in Spatial views. Any
  	user with update permission can view, select, and modify it. Any user without
  	update permission can view the LRS and add a LRS Note, but can not modify the
  	LRS. Any LRS (primary or alternate) can be published from the Private state.
  	Un-Publish a LRS and change a Publish LRS back to Private state.
  DELETE	Any user with update permission may delete a LRS from the Publish state. A
  	LRS in this state does not appear in normal Tabular list or Spatial views. Any
  	user with update permission may select a view of Deleted LRS from the previous
  	Publish state and may select and clone or Undelete a Deleted LRS (back to
  	Publish state). Only the LRS creator or a super-user can view Deleted LRS from
  	the previous Private state and may select and clone or Undelete a Deleted LRS
  	(back to Private state). An Alternate LRS with the Primary LRS in Design state
  	can not be Undeleted. A LRS can not be modified in the Delete state.
  DESIGN	When a user elects to hand-off the LRS to PMTool, the LRS State changes to
  	Design upon successful hand-off. Only a Primary LRS may be handed-off. All
  	users can see the Design state LRS in Tabular list and Spatial views. Any user
  	with update permission can view, select, and modify it. Modification can trigger a
  	PM Tool update. Any user without update permission can view the LRS and add
  	a LRS Note, but can not modify the LRS. Once a LRS is in the Design state, it
  	can no longer be deleted, but it may be canceled.
  CANCEL	Only a LRS in Design state may be canceled. Any user with update permission
  	may cancel a LRS. A LRS in this state does not appear in normal Tabular list or
  	Spatial views. Any user with update permission may select a view of Canceled
  	LRS and may select and Restore a Canceled LRS back to the Design state. A
  	LRS can not be modified in the Cancel state.
  COMPLETE	When the authorization associated with the PMTool task is completed, FMT can
  	complete the LRS. In the Complete state all users can see the LRS in a Tabular
  	list and in Spatial views. The LRS may no longer be modified. A user with
  	update permission may select the LRS for cloning.
  	Any user may add a LRS Note.
  ARCHIVE	The FMT system can automatically archive a LRS ‘x’ days after the LRS is
  	completed. This value can be set in a FMT Parameters table. A user with update
  	permission may manually archive the LRS. In the Archive state, the amount of
  	information associated with the LRS is reduced and can not be undone. The LRS
  	may no longer be modified. A user with update permission may select, via a
  	View Archive function, the LRS for view and cloning. LRS Notes can no longer
  	be added.
  <null>	The FMT system can automatically purge a LRS ‘x’ days after the LRS is
  	archived or deleted. The number of days can be set in a FMT Parameters table,
  	and can be different entries for Archive Purge and Deleted Purge. Any user with
  	update permission may select a view of Deleted LRS from previous state of
  	Publish and may select and Purge a Deleted LRS. Only the creator or super-user
  	may select a view of Deleted LRS from previous state of Private and Purge a
  	selected LRS.

• 6.3.1.2 Primary LRS State Transitions

• From
  State	To State	Action	Notes
  <null>	Private	User: LRS Create	The LRS Create function creates a LRS in
  			the Private state.
  Private	Publish	User: LRS Publish	The LRS Publish function can change a
  			LRS to the Publish state.
  Publish	Private	User: LRS Un-Publish	The LRS Un-Publish function can change
  			an LRS to the Private state from the
  			Publish state.
  Private or	Delete	User: LRS Delete	The LRS Delete function can change an
  Publish			LRS to the Delete state from the Private or
  			Publish states.
  Delete	Private or	User: LRS Undelete	The LRS Undelete function can change an
  	Publish		LRS to its previous state (Private or
  			Publish) from the Delete state. An
  			Alternate LRS with the Primary LRS in
  			Design state can not be Undeleted.
  Delete	<null>	System: LRS Purge	The system LRS Purge function or user
  		User: LRS Purge	LRS Purge Deleted function can
  		Deleted	completely remove a LRS in the Delete
  			state from the FMT system.
  Publish	Design	User: LRS Hand-off	The LRS Hand-off function can change an
  			LRS to the Design state from the Publish
  			state if successfully handed-off to PM
  			Tool.
  Design	Cancel	User: LRS Cancel	The LRS Cancel function can change an
  			LRS to the Cancel state from the Design
  			state.
  Cancel	Design	User: LRS Restore	The LRS Restore function can change an
  			LRS to the Design state from the Cancel
  			state.
  Cancel	Archive	System: LRS Archive	The LRS Archive function can change an
  		User: LRS Archive	LRS to the Archive state from the Cancel
  			state. This function can be automatically
  			initiated by the FMT system or may be
  			user initiated.
  Design	Complete	System: LRS	The system LRS Complete function can
  		Complete	change an LRS to the Complete state from
  			the Design state when the authorization is
  			shown as closed in PMTool.
  Complete	Archive	System: LRS Archive	The LRS Archive function can change an
  		User: LRS Archive	LRS to the Archive state from the
  			Complete state. This function can be
  			automatically initiated by the FMT system
  			or may be user initiated.
  Archive	<null>	System: LRS Purge	The system LRS Purge can completely
  			remove a LRS in the Archive state from the
  			FMT system.

• 6.3.1.3 Alternate LRS
• FIG. 11 describes in detail the functions of an Alternate LRS.
• Alternate LRS State definitions are the same as Primary, but are limited to Private, Publish, and Delete.
• 6.3.1.4 Alternate LRS State Transitions

• From
  State	To State	Action	Notes
  <null>	Private	User: LRS Create	The LRS Create function creates a LRS in
  			the Private state.
  Private	Publish	User: LRS Publish	The LRS Publish function can change an
  			LRS to the Publish state.
  Publish	Private	User: LRS Un-Publish	The LRS Un-Publish function can change
  			an LRS to the Private state from the
  			Publish state.
  Private or	Delete	User: LRS Delete	The LRS Delete function can change an
  Publish			LRS to the Delete state from the Private or
  			Publish states. Also the LRS Hand-off
  			function can change all Alternate
  			associated LRS to Delete.
  Delete	Private or	User: LRS Undelete	The LRS Undelete function can change an
  	Publish		LRS to its previous state (Private or
  			Publish) from the Delete state. An
  			Alternate LRS with the Primary LRS in
  			Design state can not be Undeleted.
  Delete	<null>	System: LRS Purge	The system LRS Purge function or user
  		User: LRS Purge	LRS Purge Deleted function can
  		Deleted	completely remove a LRS in the Delete
  			state from the FMT system.

• 6.3.2 Provide Location Relief Strategy Administration Tool
• 6.3.2.1 Create a LRS and Associated Administrative Data

• Embodiment	Provide User with the ability to create a LRS and
  	associated administrative data
  Description	User should be able to create a Location Relief Strategy
  	using the tools available. In order to create a LRS, the user
  	should have set some sort of location - a start and an end
  	point.
  	A user should also be able to create administrative data to
  	go along with the LRS. This administrative data can be
  	such things as creator name, creation date of an LRS, last
  	modified date, status type, etc.
  Data	See Data Embodiments: LRS & Hand-Off Package
  General	LRS overview - new concept/feature called NEED. This is
  Discussion	the highest level of LRS hierarchy. A NEED may be
  	satisfied by one or more LRSs. An LRS may have one or
  	more solutions. However, according to some embodiments
  	of the present invention, only one LRS may be defined as a
  	primary LRS, and all other LRSs are defined as
  	alternatives. In some other embodiments of the present
  	invention, more than one LRS may be defined as a primary
  	LRS for a need.
  Spatial	<NEED and LRS is initiated/created in FAS. LRS
  Embodiment	creation in Spatial is instigated by a call from FAS (LRS
  	cannot be created within Spatial; it is first be created in
  	FAS)> there is a function in FAS that allows user to kick
  	off Spatial to create a LRS in spatial; FAS passes us needed
  	admin info (unique id, user, etc,) to create new ‘folder’ in
  	our tree view. User identifies point(s) of interest, etc.
  Spatial to	Launch FAS' ‘Create LRS web page’;
  FAS I/F

  Scenario:

  User selects location from Spatial and selects “Create LRS”

  FAS web page opens and user creates new LRS

  Data elements that should be displayed on the FAS screen:

  Location(s), CSA, Address, CLLI, GLC, Easement_ID, Easement

  Size (x, y in feet), Easement Comments, Text of Easement and

  Restrictions, Power Embodiments, Point(s) of Interest, Fiber Strand,

  Fiber Connectors, Service Date, Customer Name, Customer Contact,

  Contact Info, Trigger, Prog Codes, All LecIII data in LecIII interface,

  All PM Tool data in PM Tool interface, All TEOPS data in TEOPS

  interface, Xbox(s) associated with LRS, Xbox snapshot (Xbox FG/SG

  summary screen at time associated with LRS), Contact Name, Contact

  Reason, Equipment Data (see Appendeix A1.3), New Development Data

• 6.3.2.2 Create Alternative LRS and Associate for a Route

• Embodiment	Provide User with the ability to create an alternative
  	Location Relief Strategy associated for a route.
  Description	Users should be able to create an alternative LRS for a
  	particular route. This is can be as a fallback or just an
  	alternative for a route. The user can set the main LRS as
  	primary if he/she wants and the second or third as
  	alternatives. At least one of the LRS created by the user
  	must be a Primary; any others created would be alternative.
  Data	See Data Embodiments: LRS & Hand-Off Package

  Scope for FAS:

  Manage creation of alternative LRS and changing of Primary and

  Alternative statuses

  Scenario:

  While working with a LRS user decides to create an alternative. User

  selects “Create Alternative LRS” link. The system asks if the user

  wants to clone an existing LRS. User selects Yes. A new LRS is created

  using all of the same data as the selected LRS.

  Data elements that should be displayed on the FAS screen:

  Same data as Primary LRS

• 6.3.2.3 Modify LRS Administrative Data

• Embodiment	Provide the appropriate user the ability to modify the
  	administrative data of a LRS.
  Description	Administrative Data includes data such as date LRS was
  	created, status of LRS, creator, etc. It may include all data
  	that can be administered about the LRS, except for the LRS
  	itself.
  	The user who created the LRS, the user's alternative,
  	and/or a super user have permissions to modify the
  	administrative data of a LRS. A user is able to modify an
  	LRS till the handoff state.
  Data	See Data Embodiments: LRS & Hand-Off Package

  Scenario:

  LRS decides to modify existing LRS. User selects “Modify LRS” link.

  Editable fields are no longer write protected and user can modify and

  then save.

  Data elements that should be displayed on the FAS screen:

  Same as Primary LRS

• 6.3.2.4 Save and Retrieve LRS and Administrative Data

• Embodiment	Provide user with the ability to save and retrieve LRS
  	(Location Relief Strategy).
  Description	User can save unfinished LRS and retrieve them when
  	needed. The users who have permission set can save a
  	LRS and retrieve it later to make changes or additions.
  	Once the user has created a LRS, he/she can have the
  	option to “publish” proposed routes or maintain it as
  	“private”. Published routes are available for viewing by
  	other FMT users. Private routes are only available to the
  	owner/author as well as the administrators, so that they can
  	help with support issues.
  	This is provided only if a minimal amount of information
  	(such as POI (point of interest)) has been entered.
  Data	See Data Embodiments: LRS & Hand-Off Package
  System	At a user's request, FMT can save the current LRS within
  Behavior	its database. Users can retrieve a LRS based on search
  	criteria or from a list. FMT can also provide the ability to
  	retrieve the saved LRS by selecting the file name from a
  	list. This data is corporate data and should be stored in
  	corporate server.
  Users	Loop Capacity Mangers, Long Term Planners,
  	Infrastructure IOF Planners.

  Scope for FAS:

  Manage searching of LRS based on tabular data; display LRS upon request

  from Spati

  Scenario:

  User searches for LRS based on key word. A list of matching LRS's

  are returned.

  User selects desired LRS, LRS screen is displayed.

  Data elements that should be displayed on the FAS screen:

  Same as Primary LRS.

• 6.3.2.5 Logically Delete LRS and Associated Data

• Embodiment	Logically Delete LRS and Associate Data
  Description	User should be able to delete a LRS and it's associated
  	administrative data, which can logically perform a delete.
  	The only users allowed to do this are the creators of the
  	LRS, its alternate, and a super user. The data can be
  	deleted from the user's perspective, but can remain in
  	storage until purged.
  	User can decide to delete LRS from either Spatial or FAS
  	Web; upon deletion in one application the LRS is deleted
  	from the other.
  Users	Loop Capacity Mangers, Long Term Planners,
  	Infrastructure IOF Planners.
  Spatial	Logical delete is supported.
  Embodiment	Life cycle closures, i.e., via PMTool, is managed by FAS.
  	FAS sends update to Spatial to logically delete LRS/data.
  	Manual deletes, i.e., deleted by a user, can be performed in
  	either FAS or Spatial (PLEASE CONFIRM). In this case,
  	system in which the delete is initiated sends update to the
  	other system to perform logical delete of LRS/data.

  Scope for FAS:

  Manage the LRS lifecycle.

  Scenario:

  User decides that a particular LRS is not required and should

  be deleted; User selects delete; LRS is changed to the Deleted state.

• 6.3.2.6 Purge LRS and Associated Data

• Embodiment	Purge LRS and Associated Data
  Description	LRS and their associated data can have a logical delete flag
  	associated with them so that a corporate purge process can
  	purge periodically based on a BST defined criteria.
  Data	Existing Location Relief Strategies saved by user groups
  Spatial	Purge interval & instruction is maintained in FAS. FAS
  Embodiment	notifies Spatial to Purge (physically delete) LRS/data.

  Scope for FAS:

  Manage the LRS lifecycle.

  Scenario:

  After an LRS has been in the Archive state for ‘x’ days it can be purged.

• 6.3.2.7 Create, Modify, and Delete LRS Notes by User

• Embodiment	Create, Modify, and Delete LRS Notes by User
  Description	User can create, modify, and delete LRS notes. The LRS
  	can go through the process of create, publish/un publish,
  	handoff, complete, delete, and purge.
  	Once an LRS has been published any user with access to
  	FMT can create and add LRS Notes. LRS notes cannot be
  	deleted; as a user adds a note, the user's name, ID, and the
  	date/time stamp are recorded.
  	A LRS note should be viewable in the FAS LRS screen.

  		Source (Primary,
  Data	Data Description	Secondary)
  User Name	User's First, Middle, and	Siteminder
  	Last Name
  User ID	UID	Siteminder
  Date/Time	Date	System
  Comment	Long text	User

  Scope for FAS:

  Allow user to create LRS notes.

  Scenario:

  User selects LRS. User selects “Add LRS Note” and enters desired

  information.

• 6.3.2.8 Provide LRS Reports by User Selection Filters

• Embodiment	Provide LRS Reports by User Selection Filters
  Description	User can filter out and select a particular LRS or search for
  	one using filters that show what they would like to view.
  Data	See Data Embodiments: LRS Search

  Scope for FAS:

  Allow user to search for LRS based on key words. Many, but not all

  fields, should be searchable. To search for deleted and canceled

  LRS's the user should explicitly specify that the search should

  include those LRS's. Private LRS's are displayed with minimal

  data, but users other than the creator cannot see any additional data.

  Scenario:

  User selects LRS search screen. User enters search criteria. A list of

  LRS's is displayed.

  Data elements that should be displayed on the FAS screen:

  LRS ID, Scope of Work, Location(s), Xbox(s), Primary/Alternative,

  Service Date, Trigger, LRS status (published, handed off, etc.)

• 6.3.2.9 Close an LRS Manually

• 	Embodiment	Close an LRS Manually
  	Description	User can be able to close an LRS manually

  	Scope for FAS:
  	Manage LRS Life Cycle
  	Scenario:
  	Once a LRS has been handed off the user decided that the
  	LRS should enter the closed state (for example, there is no
  	EWO for the LRS). The LRS is canceled and is no longer
  	shown as an active LRS.

• 6.3.2.10 Alert Overage Service Dates on LRS

• Embodiment	Alert Overage Service Dates on LRS
  Description	User can be provided with an alert of overage LRS x days
  	after planned service date

  Data	Data Description	Source (Primary, Secondary)

  Scope for FAS:

  Modify the Main Screen to create a notification for Overage LRS.

  Scenario:

  LRS has a service date of X. On day X + 30 the creator of the LRS logs

  into FMT and finds an alert that there is an overage LRS. The user

  selects the link to the list of overage LRS's and selects the LRS. The

  user then modifies the service date so that the LRS is no longer overage.

  Data elements that should be displayed on the FAS screen:

  LRS ID, Scope of Work, Location(s), Xbox(s), Service Date

  Source for all the data elements for this embodiment:

  FAS

• 6.3.2.11 Dependent LRS Clone

• Embodiment	Dependent LRS Clone
  Description	User can build a new LRS upon one or more LRS's. The
  	status of the facilities which are proposed in the preceding
  	LRS's is changed to “proposed existing.” The tabular data
  	includes links to the LRS's on which this LRS is
  	dependent. When a new LRS is cloned from another LRS
  	on which it is to be dependent, all data is copied, and it is
  	the user's responsibility to choose which data should be
  	deleted.
  Spatial	When a user is viewing a LRS, the facilities on which it
  Embodiment	is dependent are shown as “proposed existing”

  Scope for FAS:

  Manage LRS cloning and dependent LRS links.

  Scenario:

  User selects LRS and selects “create clone”. User then opens cloned

  LRS and enters other LRS's on which it is dependent. FAS shows these

  LRS's, along with their service dates, in the LRS screens

  Data elements that should be displayed on the FAS screen:

  Preceding LRS's and service dates

  Source for all the data elements which are required for this embodiment:

  FAS

• 6.3.3 Provide Graphical and Tabular Planning Tools
• 6.3.3.1 Generate LRS Schematics from Existing Fiber Data

• Embodiment	Provide user the ability to generate a LRS schematic
  	from existing fiber data
  Description	Using the graphical tools in FMT, users with the
  	appropriate permissions can generate a LRS schematic
  	from existing fiber data storage.
  Spatial	View that contains only data associate with (to) an LRS.
  Embodiment

• 6.3.3.2 Provide Drawing Tools, Symbols, and Attribute Creation Functions

• Embodiment	Provide drawing tools and symbols to denote all
  	necessary equipment and facility items within the
  	Location Relief Strategy (LRS).
  Description	Symbols can be consistent with existing .DUN and .LND
  	symbology.
  Data	See Data Embodiments: LRS & Hand-Off Package
  System	Users can have a palette of symbols that represent facilities
  Behavior	and landbase features to select from in order to draw a LRS
  	for future fiber optic routes.
  Users	Loop Capacity Mangers, Long Term Planners, IOF
  	Planners.
  Spatial	Provide placement of planned & planned existing features,
  Embodiment	complements, annotation, etc.
  	Attribution of features can be possible but not enforced or
  	validated.

• 6.3.3.3 Document Future Location Relief Strategy, and/or DLE Locations

• Embodiment	Provide users with the ability to document Location
  	Relief Strategy and/or DLE equipment.
  Description	The user can have an option to draw/document a future
  	fiber route and DLE equipment using tools provided in
  	FMT. Users can also either set each LRS as private or
  	publish them.
  Data	See Data Embodiments: LRS & Hand-Off Package
  System	Users can have a variety of tools to select from and can
  behavior	document and/or draw a future LRS, depending on user
  	permissions.
  Users	Loop Capacity Mangers, Long Term Planners, IOF
  	Planners.

• 6.3.3.4 Retrieve and Display LRS

• Embodiment	Provide users with the ability to retrieve LRS with a
  	user-defined job description and display on screen.
  Description	The user can have the option to “publish” LRS or maintain
  	it as “private.” Published routes are available for retrieving
  	and displaying on screen by other FMT users. Private
  	routes are only available to the owner/author.
  Data	See Data Embodiments: LRS & Hand-Off Package
  System	FMT can also provide the ability to retrieve or search for a
  Behavior	LRS from its database or from a list. This data is corporate
  	data and should be stored in corporate server.
  Users	Loop Capacity Mangers, Long Term Planners, IOF
  	Planners.

• 6.3.3.5 Display Multiple LRS Graphically

• Embodiment	Provide users with the ability to retrieve multiple LRS
  	with a user-defined job description and display them
  	on screen.
  Description	Users can display multiple LRS at one time in order to
  	compare more than one at a time, etc.
  Data	See Data Embodiments: LRS & Hand-Off Package
  System	FMT can also provide the ability to retrieve or search for a
  Behavior	LRS from its database or from a list. After selecting the
  	LRS desired, FMT can retrieve the LRS and display it on
  	screen. The user can select another LRS or search for
  	another in order to view more than one at a time. This data
  	is corporate data and should be stored in corporate server.
  Users	Loop Capacity Mangers, Long Term Planners, IOF
  	Planners.
  Spatial	User can select one or more LRS to view.
  Embodiment	User desires to be able to visually distinguish one LRS
  	from another.
  	User can link from facilities associated with one LRS
  	and see the details in FAS

• 6.3.3.6 Copy Existing LRS to New LRS

• Embodiment	Provide user with the ability to copy an existing LRS
  	into a new LRS.
  	**Described above**
  Description	Users can take a previous LRS already created within FMT
  	and copy it to a new LRS in order to use it further or make
  	additions/changes.
  	This copy can be used as a brand new LRS, as an
  	alternative to the original in addition to the original, or
  	converted to “assumed existing” for a new LRS.
  Data	See Data Embodiments: LRS & Hand-Off Package
  System	The system can take the original LRS and copy it to a new
  Behavior	page.
  Users	Loop Capacity Mangers, Long Term Planners, IOF
  	Planners

• 6.3.3.7 Modify LRS

• Embodiment	Provide user with the ability to modify a proposed LRS
  Description	Only creators/designers can modify LRS. In addition,
  	FMT can store an audit trail of modifications to each LRS.
  Data	See Data Embodiments: LRS & Hand-Off Package
  System	Users retrieve specific LRS through the on-screen
  Behavior	interface, and edit or delete them.
  Users	Loop Capacity Mangers, Long Term Planners, IOF
  	Planners
  Spatial	Once published, track changes made to LRS by any/all
  Embodiment	users.
  	Track all state changes.
  	Any LRS (primary or alternatives) can be modified until an
  	LRS reaches the ‘build’ state.
  	When the primary LRS reaches the ‘build’ state,
  	alternatives are ‘frozen’ and cannot be modified. At this
  	point, alternatives could be logically deleted.
  	A primary LRS can be modified until it reaches the
  	‘complete’ state (handed off).

• 6.3.3.8 Publish LRS

• Embodiment	Provide users the ability to publish a LRS in order for
  	other users to view and add comments, etc.
  Description	Users with appropriate permissions can publish a LRS they
  	have created in order for other users to view and add
  	comments and suggestions to them.
  	The original user who created the LRS has the option of
  	publishing the LRS (for everyone to view) or making it
  	private (for no one to view)
  Data	See Data Embodiments: LRS & Hand-Off Package
  System	Users view a LRS that have been set to publish through
  Behavior	FMT and its on-screen interface.
  Users	Loop Capacity Mangers, Long Term Planners, IOF
  	Planners.

  Scope for FAS:

  Manage LRS life cycle

  Scenario:

  User selects private LRS for which he is the owner. User selects

  “Publish LRS” and RS is now viewable to other users.

  Data elements that should be displayed on the FAS screen:

  LRS details

  Source for all the data elements which are required for this embodiment:

  FAS

• 6.3.3.9 View LRS and DLE Plans

• Embodiment	Provide users the ability to view a LRS and DLE
  Description	Same as embodiment
  Data	See Data Embodiments: LRS Search
  System	Users can view the LRS and DLE associated with it from
  Behavior	within FMT for a particular LRS or searching for one. The
  	user can view a LRS according to their user permissions.
  Users	Loop Capacity Mangers, Long Term Planners, IOF
  	Planners.

• 6.3.3.10 View Multiple LRS for Same Geographic Area

• Embodiment	Provide users with the ability to view multiple Location
  	Relief Strategies for same geographic area.
  Description	Same as embodiment
  Data	See Data Embodiments: LRS & Hand-Off Package
  System	Users can view multiple Location Relief Strategies for the
  Behavior	same geographic area. The LRS is distinguishable from one
  	another. The user may have one or more LRS on-screen at
  	any given time. The user can toggle this feature on and off.
  Users	Loop Capacity Mangers, Long Term Planners, IOF
  	Planners.

• 6.3.3.11 Capture LRS Notes Associated with a Graphical Feature by User

• Embodiment	Capture LRS, and information about the LRS notes -
  	including the date created and the user that entered the
  	comment.
  Description	Same as embodiment
  Data	None
  System	The system should provide a freeform field that captures
  Behavior	LRS notes.
  	The system should assign the current day's date in a
  	separate field.
  Users	Loop Capacity Mangers, Long Term Planners, IOF
  	Planners.

• 6.3.3.12 Manage Graphical Feature LRS Notes by User

• Embodiment	Provide user with the ability to manage LRS notes
  	through a graphical feature by user.
  Description	Same as embodiment
  Data	Same data as for a tabular note, but associated with planned
  	feature rather than tabular LRS.
  System	Users with the access to FMT can enter LRS notes through
  Behavior	a graphical feature. The system can output the request by
  	user.
  Users	All FMT users

• 6.3.3.13 Link to Tabular LRS Data at Location Features

• Embodiment	Provide an internal link to tabular LRS data at location
  	features
  Description	Same as embodiment
  Data	None
  System Behavior	User interface can interact with a link to the tabular
  	planning data.
  Users	Loop Capacity Mangers, Long Term Planners, IOF
  	Planners

• 6.3.3.14 Measure Strand Distances

• Embodiment	Measure both horizontal and loop distances for a
  	Location Relief Strategy (LRS)
  Description	System measures strand distance in feet or meters.
  Data	None
  System Behavior	User interface can assign appropriate distance based on
  	scale of current on-screen view.
  Users	Loop Capacity Mangers, Long Term Planners, IOF
  	Planners

• 6.3.3.15 Provide View Printing

• Embodiment	Print all views available on-screen.
  Description	The FMT client can support all Windows-standard
  	functionality including save, print, cut, paste, copy,
  	portrait, landscape, paper size, etc. In addition, the client
  	can provide the user with the ability to assign a title to the
  	printed document.
  Data	None
  System	System can print all views, including graphical
  Behavior	(geographical and facilities) and tabular data of an LRS.
  Users	Loop Capacity Mangers, Long Term Planners, IOF
  	Planners
  Spatial	Allow user to print graphical representations of LRS
  Embodiment

  Scope for FAS:

  Print LRS tabular data

  Scenario:

  User selects Print. LRS details are printed

  Data elements that should be displayed on the FAS screen:

  LRS details

• 6.3.3.16 Create an Equipment Plan Associated to a LRS and Location

• Embodiment	Create an equipment plan associated to a LRS and
  	location.
  Description	Same as embodiment
  Data	None
  System	System should have the ability for the user to create an
  Behavior	equipment LRS that is associated with its location and LRS
  	ID.
  Users	Loop Capacity Mangers, Long Term Planners, IOF
  	Planners

• 6.3.3.17 Create Fiber Strand Plans Associated to LRS and Sheath

• Embodiment	Create Fiber Strand Plans associated to a LRS and
  	Sheath.
  Description	Same as embodiment
  Data	None
  System	System should allow users to create fiber strand plans that
  Behavior	are associated with Location Relief Strategy and sheath.
  Users	Loop Capacity Mangers, Long Term Planners, IOF
  	Planners
  Spatial	User can modify complement data of existing facilities as a
  Embodiment	part of a LRS.

  Scope for FAS:

  FAS captures Fiber interest, but user must manually enter fiber strands

  in LRS tabular; there is not check between Spatial and FAS for a fiber

  interest

  Scenario:

  User opens a LRS. User modifies complements on existing fiber sheaths

  so that desired fiber strands are energized in the desired manner. User

  then opens the LRS detail screen and enters the desired fiber strands

  in the Fiber Strand field. An interest is then created.

  Data elements that should be displayed on the FAS screen:

  Logical strand

  Source for all the data elements which are required for this embodiment:

  user

• 6.3.3.18 Provide Summary Reports
• FMT can have the ability to generate summary reports on a company's fiber optic assets. In summary, and at minimum, FMT can produce the following information:

• Report	Description
  Central Offices	The report includes summary information of Central
  by District	Offices (Wire Centers) by District.
  Equipment by	This report includes all fiber-related equipment, and
  Central Office	summary information of that equipment, associated with
  	a particular Central Office.
  Equipment by	This report includes all fiber-related equipment, and
  Remote	summary information of that equipment, associated with
  Terminal	a particular Remote Terminal.
  Equipment,	This report includes all fiber-related equipment, and
  Plant Assets	summary information of that equipment (including
  by Fiber Strand	location) associated with a particular Fiber Strand.

• 6.3.3.19 Create Ad Hoc Monitoring Queries and Reports

• Embodiment	Create Ad Hoc monitoring queries and reports for
  	specialized and unpredictable monitoring tasks.
  Description	Reports may be design and saved from a separate
  	application, but report record selection, previewing, and
  	writing must be integrated into FMTs planning layer.
  Spatial	Provide spatial query capabilities in a user-friendly
  Embodiment	manner which also prevents users from creating
  	dangerous, unworkable, or “expensive” queries

  Scope for FAS:

  Create a means of 1) creating custom reports and 2) saving the requests

  so that the reports can be reproduced.

  This tool should be capable of querying data related to equipment, Xbox,

  CSA, Fiber, and LRS and performing joins. The user should be able to

  specify field, operator (=, >, <, Like), value (including wildcard), and

  and/or relationship. This embodiment may not include the ability to

  perform mathematical operations (sum, percent, etc.) but the user

  may be able to save the result set so that it may be opened in another

  application for that purpose.

  Data elements that should be displayed on the FAS screen:

  As requested by user

  Source for all the data elements which are required for this embodiment:

  FAS datawarehouse

• 6.3.3.20 LRS Handoff Package

• Embodiment	LRS handoff data that describes the Location Relief
  	Strategy must be accessible by other users and the PM
  	Tool.
  Description	The document must meet the minimum handoff
  	embodiment as described.
  Data	See Data Embodiment: LRS & Hand-Off Package

  Scope for FAS:

  Upon user selecting “handoff” pass appropriate data to PM Tool in a

  realtime manner.

  Scenario:

  User selects LRS. User ensures that LRS is 1) primary and 2) published.

  User then selects “handoff.” A PM Tool document is automatically

  generated.

  Alternatively:

  User selects a private, alternative LRS. User attempts to generate handoff

  package. System notifies user that the LRS must first be published and

  primary, would the user like to do this now; if so then primary LRS “x”

  must become alternative, proceed? User selects proceed, and a PM

  Tool document is automatically generated.

  Data elements that should be displayed on the FAS screen:

  See PM Tool interface

  Source for all the data elements which are required for this embodiment:

  FAS

• 6.3.3.21 Monitor Facility and Fills

• Embodiment	Monitor facility and fills by generating actual and
  	forecasted network usage.
  Description	FACILITY PLANNERSs need to generate, view, print
  	reports of actual and forecasted network usage. Reports
  	should be available at various levels of the network
  	segments.
  	Monthly details: these reports list usage statistics by
  	month for a 12-month period.
  	History and Forecast: these reports list usage statistics
  	by year, as well as disconnects, and defects in the past
  	By service category and architecture: these reports list
  	network usage organized by type of service and system
  	architecture

• 6.3.3.22 Provide Inventory Tasks on Equipment/Site Details

• Embodiment	Provide information for inventory tasks on existing and
  	proposed equipment and site details.
  Description	FMT must provide access to individual network elements
  	starting from a district at the top of the inventory hierarchy.

  Scope for FAS:

  Existing iView functionality for all equipment, not just that which is

  found in LEIM.

  Source for all the data elements which are required for this embodiment:

  Same as iView functionality today

• 6.3.3.23 Maintain Editing History

• Embodiment	Maintain editing history of each Location Relief
  	Strategy (LRS)
  Description	The history can consist of a list of modifiers and the date of
  	their last change.

  Scope for FAS:

  Maintain list of users and timestamps of edits

  Scenario:

  User selects LRS and makes modifications. User's ID and timestamp are

  recorded and displayed upon request.

  Data elements that should be displayed on the FAS screen:

  User name, ID, timestamp

  Source for all the data elements which are required for this embodiment:

  FAS

• 6.3.3.24 Create “Publish” Pop-Up Window

• Embodiment	Create a pop-up window every time a user exists his/her
  	planning screen
  Description	Once the user has finished a session of creating a LRS and
  	wants to exit and log out - the system can pop up a screen
  	and ask the user: Do you want to Publish? The user can
  	click on Yes or No-Remind me in    days.
  	(The number of days can be determined in the design stage)

  Scope for FAS:

  Create Publish “nag screen”

  Scenario:

  User selects LRS and makes edits. Upon clicking the Save button the user

  sees a screen which encourages him to publish the LRS.

  Data elements that should be displayed on the FAS screen:

  Publish “nag screen”

  Source for all the data elements which are required for this embodiment:

  Publish popup screen with yes/no buttons

• 6.4 Exit, Session, Recovery, and Cleanup
• The FMT client can exit gracefully. Upon exit, the client can perform all necessary cleanup for any locally stored, temporary files. If a user's session is interrupted (due to a power outage for example), the client can have the ability to recover the session.
• 6.5 Performance
• FMT should be pleasant for user to user; the application should respond to users' selections quickly. Action should be taken to ensure that user wait time is minimized. This goes for both the graphical and tabular tools. For example:
• • 1) Interactive task response times—2 seconds or less.
  • 2) Creation of print file in less than 2 seconds (file size 1 MB).
  • 3) Design session startup
    • a) From File (4 MB of graphics)—15 seconds or less
    • b) From database—1 minutes or less
  • 4) User interface is event driven (users must understand mouse movements).
  • 5) Screen refreshes—3 seconds or less.
  • 6) Standard data queries—3 seconds or less.
  • 7) Minimum mouse travel.
  • 8) Optimum Use of Keyboard and mouse interactions (minimized user movements required).
  • 9) Response time on customer tools as good as standard tools.
7 External System
• Purpose: This section describes embodiments for the interfaces between OPEDS and the various external systems that can provide data for FMT. Data transmission in the network can comprise proprietary and open standards and methodologies.
• Discussion: Data transmission in the network can involve the use of external system interfaces (or “contracts”) that are implemented using one of the following accepted communication standards listed below (see Table 3)

• TABLE 3
  Standard Communication Methods

  BUFIT	A file-based transmission method, BUFIT is most often used to send
  	multiple records of data in a single file from one system to another.
  	BUFIT transactions are normally associated with batch processes (i.e.
  	each night a system sends all of the current day's order records to the
  	archive system).
  Navigator	A structure-based transmission method, Navigator is used to send
  	memory structures from one system to another. Navigator transactions
  	are normally associated with interactive processes and can sometimes
  	involve query and response scenarios (i.e. System A sends a request to
  	System B for data, System B interactively sends data back to System A).
  Orbix	Orbix provides an Object Request Broker (ORB) that behaves like
  	Navigator in that it is most often used for immediate transactions
  	between interactive processes.

• Each contract can have an associated version number (e.g., the first, “0001,” the second “0002” and so on). A process can assign the next version number if the contents of the contract change, such as the addition of a new field or possibly a change in the expected contents of an existing field. All programs initiating contracts can tag them with appropriate version numbers. Furthermore, all receiving programs should recognize the version of the contract upon receiving them, and act on that version appropriately. For example, if a contract is on its third version, the program that receives the contract should accept versions 1, 2 or 3 of the contract and process it accordingly.
• The OPEDS Process/Data management layer can manage the process of sending all outgoing contracts from an OPEDS point of view as well as receiving all incoming contracts from an OPEDS point of view. This can include storing and retrieving the data for other processes requesting the data.
• Specific information for each of FMT's external system interfaces is outlined below.
• Note: FMT may acknowledge positive receipt of the data.
• 7.1 External Systems Communications
• 7.1.1 LECIII

• System	Loop Electronics Coordination Version 3 (LEC III) is a
  Overview	mainframe based budgeting, scheduling, forecasting, and
  	tracking toll for DLC equipment. It stores equipment, cost,
  	and scheduling information along with user plans for DLC
  	work with which provides information through a series of
  	reports and an ad hoc query system.
  Embodiment	The FMT system can establish a “process” type of interface
  	with LEC III in which users can receive data in FMT based
  	upon the entry of LECIII ID.
  Process	The LEC III ID entered into FMT, a process can then be
  	triggered that can retrieve the data associated with the ID.
  Response	FMT must acknowledge positive receipt of the data. Data is
  	then displayed in FMT.

• 7.1.1.1 LEC III Data Embodiments

• 		Data	Max.
  Fields	Description	Type	Char.

  LEC III ID	Numbering scheme brought over
  	by LEC
  Equipment Type	Product description of DLE
  	equipment
  Quantity	Total number of a specified
  	equipment type
  #System	System number of system to be
  	turned up
  Mode	Mode “I” “II” or “III”
  TR303 Line	DLC type
  #DS1 Req.	Required number of DS1s
  DLC System Type	Manufacturer code
  TR303/Tr008	Terminal type
  RDSC	Code to be used to order equipment
  	associated with this LRS (may be
  	manually entered or fed from
  	LECIII)

• 7.1.2 LOC/CLLI

• System	This system is used to request Area Numbers and CLLI Code
  Over-	Information. Users can retrieve existing CLLI codes or submit
  view	requests to CLLIADM via Open Mail to create new codes,
  	modify and delete existing codes. This system is integrated
  	with LEC III.
  Em-	The LOC/CLLI system can transmit the specified data
  bodi-	elements to FMT within the agreed upon time frame nightly,
  ment	including weekends. The data from LOC/CLLI should be a
  	“delta” from the last data set that was indicated as successfully
  	received from FMT. FMT can load the data from LOC/CLLI
  	within a timeframe that is acceptable based on the amount of
  	data received from LOC/CLLI and the necessary business
  	rules.
  Re-	FMT must acknowledge positive receipt of the data.
  sponse

• 7.1.3 LFACS

• System Overview	LFACS (Loop Facilities Assignment and Control
  	System) - LFACS is an inventory and assignment
  	system for the outside plant (local loop) facilities
  	which support DS0-level (and, in some cases,
  	DS-1-level) services. LFACS maintains an inventory
  	of customer locations and the outside plant facilities,
  	which serve each location.
  Embodiment	Execute inquiries and reports against the LFACS
  	database from within a FMT session.

• 7.1.4 FOX/DSX/TEOPS

• System Overview	FOX (Fiber Optic Connect System)
  	Module of TEOPS (Telephone equipment processing
  	system) where DSX or LGX assignments are
  	made when new equipment is added to a central office.
  Embodiment	FOX can transmit the specified data elements to
  	OPEDS within an agreed upon time frame nightly,
  	including weekends. The data from FOX should be a
  	“delta” from the last data set that was
  	indicated as successfully received from OPEDS. The
  	OPEDS system can load the data from FOX and
  	the necessary business rules.
  Response	OPEDS may acknowledge positive receipt of the data.

• 7.1.4.1 FOX/DSX Data Embodiments

• 		Data	Max.
  Fields	Description	Type	Char.

  Bay Panel	Identifier for the bay and panel
  Jacks LTR
  Assigned equipment	Type of assigned equipment to a bay
  Assigned location	Location of the equipment
  Unit/shelf	The shelf number
  Circuit	Type of circuit
  TEO	Associated unique identifier used to
  	place equipment
  Note	Remarks field

• 7.1.5 TIRKS

• System Overview	Inventories all special circuit and central office
  	information.
  Embodiment	TIRKS can provide current data within 24 hours.
  	There may be two possible ways to accomplish this:
  	1) receive bulk data sets from TIRKS on a nightly
  	basis, or 2) establish a “query and response”
  	type of interface with TIRKS in which FMT users can
  	request current data. The first option may be
  	preferable so long as the data is such that TIRKS
  	can provide (REDS with “deltas” and the
  	amount of data is such that the OPEDS database
  	can store it redundantly.
  Response	OPEDS must acknowledge positive receipt of the data.

• 7.1.6 LEIM

• System Overview	LEIM (Loop Equipment Inventory Module) Corporate
  	repository of OSP Digital Loop Electronics Data.
  Embodiment	LEIM can provide current data within 24 hours. There
  	may be two possible ways to accomplish this:
  	1) receive bulk data sets from LEIM on a nightly
  	basis, or 2) establish a “query and response”
  	type of interface with LEIM in which FMT users
  	can request current data. The first option may be
  	preferable so long as the data is such that LEIM
  	can provide OPEDS with “deltas” and the
  	amount of data is such that the OPEDS database
  	can store it redundantly. The design phase can
  	examine this issue further.
  	The existing LEIM extract for FAS can be modified
  Embodiment	Allow user to send “update” data for 1 location
  Description	It is feasible to have a request and response between
  	FMT and LEIM to get a Location update. It
  	could be batch, possibly overnight, using FTP if
  	variances are approved

• 7.1.7 BCM

• System	The Telecommunications Company Construction Management
  Overview	system is a web-based application designed to assist in
  	planning, forecasting, tracking, and controlling capital
  	retirement and maintenance budgets for Central Office
  	Equipment (COE), Outside Plant (OSP), Land and Building
  	(L&B), and Plug-in Authorizations.

• 7.1.8 PM TOOL

• System Overview	PM TOOL (Project Management Tool), serves as a shared
  	database between BST and the Supplier in which all identified
  	engineering embodiments can be logged and then tracked from
  	identification through completion.
  Embodiment	FMT can establish a “process” type of interface with PM
  	TOOL in which users can receive data in FAS based upon the
  	entry of certain data elements. The FAS tables can contain PM
  	Tool data elements i.e. PM Tool ID, date(s) etc. When the ID
  	or other predetermined data element is entered into FMT, a
  	contract can be triggered that can retrieve the associated data
  	and display the appropriate information in FAS.
  Process	User generates a hand-off package
  Response	All LRS data is sent to PM Tool. Once the data is received
  	PM Tool returns a PM Id.

• 7.1.8.1 PM Tool Data Embodiments

• 		Data	Max.
  Fields	Description	Type	Char.
  PM Tool Id	PM Tool item# (unique in component)
  LRS Id	FAS LRS ID (unique in FAS database)
  Wire Center	Wire center CLLI for this plan
  Location	Location of plan
  Job Title	User defined short description of work to be performed
  EWO	Auth number fed from PM Tool to FAS Plan
  Local Category	Used in PM Tool to categorize work
  Metrics Category	Used in PM Tool to categorize work
  Taper Codes	Numerical representation of an interface to be
  	monitored
  Associated PM Tool	Used in PM Tool to associate other PM Tool items
  Scope	Free form description of work to be performed
  Status	Free form description of status of LRS or handoff
  	document to be performed
  FACILITY	Owner of FAS plan
  PLANNERS
  Copper Sizing	Free form instructions concerning how copper cables
  Criteria	should be sized on this plan
  Cable Count	Copper cable name and pair range to be used in this
  	plan
  Fiber Sizing Criteria	Free form instructions concerning how fiber cables
  	should be sized on this plan
  Cable Count	Fiber cable name and pair range to be used in this plan
  Mandatory Splice	Free form comments indicating required splice points
  Location	in a LRS involving fiber
  Service Required	Date by when FACILITY PLANNERS believes
  	service is required for this plan
  Approval Date	Date when the auth number associated with the PM
  	Tool document is approved in JMS
  Hand-Off Date	Date when hand off package is generated (FAS LRS is
  	entered into PM Tool)
  Construction Close	Date when auth number associated with the PM Tool
  Date	document is closed in QSPCM
  Cancellation Date	Date when auth number associated with the PM Tool
  	document is cancelled in JMS
  Permit Type	Type of permit required
  Grantor	Grantor of permit
  Date Permit	Date notification of approval of permit received
  Received
  Date Permit	Date approval of permit requested
  Requested
  Easement Required	Yes/no indicator of whether an easement can need to
  	be obtained as a part of this plan
  Date Easement	Date easement requested
  Requested
  Date Easement	Date easement received
  Received
  Co Mux Location	Relay rack location of Central office Mux
  Fiber Assignment	Fiber assignment for connecting equipment
  Co LGX Position	Central office bay location of the central office LGX
  TEO	Associated TEO which places equipment for this plan
  RDSC Code	Code to be used to order equipment associated with
  	this LRS (may be manually entered or fed from
  	LECIII)
  Clli	LOC_CLLI of remote terminal
  Area Number	Tax code associated with RT LOC_CLLI
  Address	Address of remote terminal where work is to be
  	performed
  Site#	CSA or location ID of remote terminal where LRS is to
  	take place
  RT Type	Structure type
  Channel Banks	Number of channel banks to be added on this plan
  Added
  Commons Added
  DLC	Indicates whether system is to be turned up as
  	integrated or universal. PM Tool currently only
  	supports these options, a modification should be made
  	to also accept TR303). This field may be modified
  	further to indicate the turning up of a Mux
  COT	Position of central office connection (COT location or
  	switch peripheral bay/panel/jack location)
  DS1 Assignment	FACS cable pair(s) which can feed the system being
  	turned up
  System Type	System type (slc5, discs, etc.)
  Mode	Indicator of number of DS1's being used to turn up the
  	system
  System#	System number of system to be turned up
  Count	Cable name and pair range to originate from this piece
  	of equipment
  Fitl Qut Count	Cable name and pair range to originate from this piece
  	of FITL equipment

• 7.1.9 TEOPS

• System	TEOPS is the tool which is used for creating and
  Overview	monitoring Telephone Engineering Orders.
  Embodiment	FMT may transmit data to and retrieve data from TEOPS
  	on an as needed basis. These transactions can be real
  	time.
  Process	TBA
  Response	All LRS data is sent to PM Tool. Once the data is received
  	PM Tool returns a PM Id.

8 Data Embodiments
• 8.1 LRS & Hand-Off Package

• 		Data	Max.	Source (Primary,
  Data Item	Description	Type	Char.	Secondary)
  LRS Id	FAS LRS ID number (unique
  	in FAS database)
  PM Tool Id	PM Tool item# (unique in
  	component)
  Comment	Free form field for comments
  	which should be stored but not
  	included in the handoff
  	package
  Equipment ID	LEIM unique wire center
  	Identifier
  Entity	PM Tool entity (derived from
  	ST/NVP)
  Component	PM Tool component (derived
  	from WC district)
  Mux Ports	Muldem/Slot/Port assigned to
  	a system being turned up.
  Status	Indicator of whether LRS is
  	public or private and if a
  	handoff package has been
  	generated
  Wire Center	Wire center CLLI for this LRS
  Location	Location of LRS address
  Job Title	User defined short description
  	of work to be performed
  EWO	Auth number fed from PM
  	Tool to FAS LRS
  Local Category	Used in PM Tool to categorize
  	work
  Metrics Category	Used in PM Tool to categorize
  	work
  Taper Codes	Numerical representation of an
  	interface to be monitored
  Associated PM Tools	Used in PM Tool to associate
  	other PM Tool items
  Associated LRS	Associates current LRS with
  	other FAS LRS
  Associated Facility	Associates current LRS with
  Route	FMT proposed facility routes
  Scope	Free form description of work
  	to be performed
  Status	Free form description of status
  	of LRS or handoff document to
  	be performed
  Facility Planners	Owner of FAS LRS
  Copper Sizing Criteria	Free form instructions
  	concerning how copper cables
  	should be sized on this LRS
  Cable Count	Copper cable name and pair
  	range to be used in this LRS
  Fiber Sizing Criteria	Free form instructions
  	concerning how fiber cables
  	should be sized on this LRS
  Cable Count	Fiber cable name and pair
  	range to be used in this LRS
  Mandatory Splice	Free form comments indicating
  Location	required splice points in a LRS
  	involving fiber
  Service Required	Date by when FACILITY
  	PLANNERS believes service
  	is required for this LRS
  Approval Date	Date when the auth number
  	associated with the PM Tool
  	document is approved in JMS
  Hand-Off Date	Date when hand off package is
  	generated (FAS LRS is entered
  	into PM Tool)
  Construction Close	Date when auth number
  Date	associated with the PM Tool
  	document is closed in OSPCM
  Cancellation Date	Date when auth number
  	associated with the PM Tool
  	document is cancelled in JMS
  Permit Type	Type of permit required
  Grantor	Grantor of permit
  Date Permit Received	Date notification of approval
  	of permit received
  Date Permit Requested	Date approval of permit
  	requested
  Easement Required	Yes/no indicator of whether an
  	easement can need to be
  	obtained as a part of this LRS
  Date Easement	Date easement requested
  Requested
  Date Easement	Date easement received
  Received
  Co Mux Location	Relay rack location of Central
  	office Mux
  Fiber Assignment	Fiber assignment for
  	connecting equipment
  Co LGX Position	Central office bay location of
  	the central office LGX
  TEO	Associated TEO which places
  	equipment for this LRS
  RDSC Code	Code to be used to order
  	equipment associated with this
  	LRS (may be manually entered
  	or fed from LECIII)
  Clli	LOC_CLLI of remote terminal
  Area Number	Tax code associated with RT
  	LOC_CLLI
  Address	Address of remote terminal
  	where work is to be performed
  Site#	CSA or location ID of remote
  	terminal where LRS is to take
  	place
  RT Type	Structure type
  Channel Banks Added	Number of channel banks to be
  	added on this LRS
  Commons Added
  DLC	Indicates whether system is to
  	be turned up as integrated or
  	universal. PM Tool currently
  	only supports these options, a
  	modification should be made
  	to also accept TR303) This
  	field may be modified further
  	to indicate the turning up of a
  	Mux
  Cot	Position of central office
  	connection (COT location or
  	switch peripheral
  	bay/panel/jack location)
  Ds1 Assignment	FACS cable pair(s) which can
  	feed the system being turned
  	up
  System Type	System type (slc5, discs, etc.)
  Mode	Indicator of number of DS1's
  	being used to turn up the
  	system
  System#	System number of system to be
  	turned up
  Co DSX RT-Unit/Jacks	Jack assignments of DSX for
  	COT
  Mux Rate	Indicates rate of optics and
  	capacity of Multiplexer shelf
  	(e.g. OC3+, OC1, OC192)
  Tid	Target identifier for SONET
  	devices
  SCID	Sonet Carrier Identifier
  Architecture	Indicator of architecture of
  	fibers feeding device (e.g.
  	diverse, collapsed)
  Count	Cable name and pair range to
  	originate from this piece of
  	equipment
  Fitl Out Count	Cable name and pair range to
  	originate from this piece of
  	FITL equipment
  LOC ID	LEIM location ID is a unique
  	identifier with a W/C to
  	identify a structure.
  Timeslot	Timeslot information for
  	assignment of DS3 data in
  	TIRKS

• 8.2 LRS Search

• 				Source
  		Data	Max.	(Primary,
  Data Definition	Description	Type	Char.	Secondary)

  Wire Center	Clli code for Wire Centers
  Clli
  Taper Code	The taper code associated
  	with the terminal
  Terminal	Address of the terminal
  Address
  LRS ID	Unique LRS identifier
  	assigned by FAS
  PM ID	Numbering scheme brought
  	over by PM Tool
  BCM TEO/Proj	Numbering scheme brought
  	over by BCM.
  LEC III ID	Numbering scheme brought
  	over by BCM.

• 8.3 Facility Route Search
• 8.4 Equipment Attributes

• 		Data	Max.	Source (Primary,
  Data Definition	Description	Type	Char.	Secondary)

  CLLI # (Common	Common Language Location	Text	8	LEIM, TIRKS,
  Language Location	Identifier			LOC/CLLI and
  Identifier)				FAS
  CLEI # (Common	Code that uniquely identifies	Text	12	LEIM, TIRKS
  Language Equipment	an item of DLE equipment
  Identifier)
  Address	Street Address	Text	20	LEIM, LOC/CLLI,
  				FAS
  Location	Location inside a CO or RT	Text	12	LEIM, FAS
  	where a specific item of
  	equipment resides
  Equipment Type	Product description of DLE	Text	30	LEIM, TIRKS,
  	equipment			LFACS
  RDSC (Regional	Code that provides a DLE	Text	20	LEIM
  Design Source Code)	equipment manufacturer's
  	standard product configuration
  	and prices
  Customer Name	Name of customer served by	Text	25	LEIM or personal
  	an item of DLE equipment			notes
  AWF (Alarm Wiring	Standard configuration that	Numeric	4	LEIM
  Configuration)	corresponds to the DLE
  	powering configuration
  TEO # (Telephone	Number assigned to a purchase	Text	18	LEIM, FOX
  Equipment Order)	order of DLE equipment
  EWO # (Engineering	Engineering work order that	Text	10	FAS, LEIM
  Work Order)	placed or modified that piece
  	of equipment
  Feeder Route #	Used for provisioning	Text		2	LEIM
  Carrier #	Used for provisioning	Text		6	LEIM
  Allocation #	Used for provisioning	Text		6	LEIM
  Distribution #	Used for provisioning	Text		6	LEIM
  Status	Assignment condition -	Text	10	LEIM, TIRKS,
  	working, assigned, spare,			Personal Notes
  	planned

• 8.5 MUX

• 		Data	Max.	Source (Primary,
  Data Definition	Description	Type	Char.	Secondary)

  DSX Assignment	DS1 or DS3 Termination	Text		6	TIRKS, LEIM,
  				FOX
  System #	Administration # assigned to	Numeric	4	TIRKS, LEIM,
  	MUXs			LFACS
  Software Generic	Software version supporting an	Text	10	TIRKS, LEIM
  	item of DLE equipment
  TID # (Target ID)	Combination of CLLI, System	Text	20	TIRKS, LEIM
  	Type and System Number
  Wavelength	Wavelength in nanometers that	Text	10	TIRKS, LEIM
  	equipment is operating
  Bandwidth	Maximum MBs per second of	Text	8	TIRKS, LEIM
  	data that an item of equipment
  	can transmit
  Bandwidth Capacity	Maximum Bandwidth	Text	8	TIRKS, LEIM
  FOT Assignment	LGX termination point	Text	10	LEIM (loop);
  				FOX, TIRKS
  				(IOF)
  MD Counts	MUX Distribution Counts	Text	16	LFACS, LEIM
  Configuration	Sonet or Assync, and the ring	Text	20	TIRKS, LEIM
  	configuration
  SCID # (Sonet Circuit	Identification number given to	Text	8	LEIM, TIRKS
  ID)	Sonet Mux systems.
  DS3 Circuit ID	Unique DS3 or STS-1 circuit	Text	20	TIRKS
  	ID
  DS1 Circuit ID	Unique DS1 circuit ID	Text	20	LFACS, TIRKS
  OCN Circuit ID	Unique OCN circuit ID	Text	20	TIRKS
  Node Locations	Node ID	Text		2	LEIM

• 8.6 DSX

• 				Source
  		Data	Max.	(Primary,
  Data Definition	Description	Type	Char.	Secondary)

  DSX To Equipment	Equipment	Text	10	LEIM, TIRKS
  Slot Assignment	termination
  	location
  Configuration (DS1 or	Service	Text	4	LEIM, TIRKS
  DS3)	Termination Type

• 8.7 LGX

• 		Data	Max.	Source (Primary,
  Data Definition	Description	Type	Char.	Secondary)

  Equipment Slot	Equipment termination	Text	20	LEIM, FOX
  Assignment	location
  Strand Slot Assignment	Indicates which LGX port	Text	10	LEIM, TIRKS
  	corresponds to a fiber strand
  	from an item of equipment
  Capacity	Total possible number of	Text	3	LEIM, FOX
  	terminations

• 8.8 ONU

• 		Data	Max.	Source (Primary,
  Data Definition	Description	Type	Char.	Secondary)
  PG Count Range	Derived counts	Text	20	LEIM, LFACS
  	assigned

• 8.9 NMLI

• 		Data	Max.	Source (Primary,
  Data Definition	Description	Type	Char.	Secondary)
  Circuit Id	System Circuit Id	Text	25	TIRKS

• 8.10 DLC

• 		Data	Max.	Source (Primary,
  Data Definition	Description	Type	Char.	Secondary)

  Mode	Mode “I” “II” or “III”	Text	3	LEIM
  Line Code	“AMI” or “B8ZS”	Text	4	LEIM
  System Type	Manufacturer Code	Text		6	LEIM, LFACS
  PG Counts (Pair Gain	Counts assigned to DLE	Text	18	LEIM, LFACS
  Counts)	equipment slots to provide
  	LFACS assignment capability
  DSX Assignment	DS1 Termination location	Text	4	LEIM

• 8.11 Fiber Splice

• 		Data	Max.	Source (Primary,
  Data Definition	Description	Type	Char.	Secondary)

  Default Splice Type	System determined splice
  	type
  Field Verified Splice	The actual type of splice used
  Type	based on field verification
  System Determined	Default loss associated with
  Loss
  Field Verified Loss	The actual loss based on field
  	verification
  Source	IPID# and complement which
  	is on the CO side of the splice
  Destination	IPID# and complement which
  	is on the field side of the
  	splice

• 8.12 Switch

• 		Data	Max.	Source (Primary,
  Data Definition	Description	Type	Char.	Secondary)
  System Type	Manufacturer Code	Text		6	LEIM
  DSX Assignment	DS1 Termination	Text	4	LEIM
  	location

• 8.13 Repeater Shelf

• 		Data	Max.	Source (Primary,
  Data Definition	Description	Type	Char.	Secondary)

  DSX Assignment	DS1 Termination	Text		6	LEIM, TIRKS
  	location
  Shelf Assignment	DS1 or DS3 Circuit	Text	25	LEIM, TIRKS
  (Circuit)	ID
  Shelf Capacity	Number of slots in	Text	3	LEIM, TIRKS
  	a shelf

• 8.14 Fiber Strand

• 		Data	Max.	Source (Primary,
  Data Definition	Description	Type	Char.	Secondary)

  Designation	Name that uniquely identifies	Text	20	FAS, LEIM,
  	a fiber strand inside a wire			personal notes
  	center
  Diversity	Diverse, Non-Diverse	Text		1	FAS
  Fiber Mode	Size of strand code - single or	Text	6	FAS
  	multi-mode
  Continuity Relation	State of one item's connection	Graphical	N/A	FAS
  	to another
  Terminating Condition	Strand state of termination or	Graphical	N/A	FAS, LEIM,
  	non-termination			TIRKS
  Type	Department of ownership -	Text	4	FAS
  	Loop or IOP
  Beginning Wire Center	Name given to a geographic	Text	20	FAS, LEIM,
  Name	area served by a central office			TIRKS
  Terminating Wire	Name given to a geographic	Text	20	FAS, LEIM,
  Center Name	area served by a central office			TIRKS
  Central Office Location	Street Address of CO	Text +	30	FAS, LEIM,
  		Graphical		TIRKS
  Central Office ID	CO CLLI Code	Text	25	LEIM, TIRKS
  RT Location	Strand address of Remote	Text +	30	FAS, LEIM,
  	Terminal and Graphical	Graphical		TIRKS
  	Location
  Position in ribbon or	Position noted by Strand	Text	10	FAS
  tube	Color
  Wavelength	Wavelengths utilized by	Text	10	TIRKS
  	strand
  Sheath Assignment	Sheath attributes associated	Text	10	FAS
  	with the strand
  Status	Assignment condition -	Text	10	LEIM, TIRKS,
  	working, assigned, spare,			personal notes
  	planned
  Dry Fiber Indicator	Indicates whether fiber is a	Text	1	LEIM, TIRKS
  	“dry fiber” or not

• 8.15 Fiber Sheath

• 		Data	Max.	Source (Primary,
  Data Definition	Description	Type	Char.	Secondary)

  Manufacturer	Sheath manufacturer	Text	10	FAS
  Fiber Type	Cable Core Design	Text	20	FAS
  Fiber Mode	Core Size	Text		6	FAS
  Attenuation	Expected attenuation (signal	Text	8	FAS
  	loss) of strand
  Sheath Type	Over sheath attributes	Text	20	FAS
  Tensile Load	Maximum allowable sheath	Text	10	FAS
  	tension
  Cable unit type	Configuration of fibers in	Text	10	FAS
  	sheath tube or ribbon
  Fibers per unit	Number of guaranteed fibers	Text		3	FAS
  	in sheath units
  Size	Number of Fibers	Numeric	4	FAS
  IPID #	Item of plant ID in FAS	Numeric	10	FAS
  Mortality Date	Year placed in field	Date	4	FAS
  Designation	Type or use of fiber - outside,	Text	10	FAS
  	riser, plenum
  Reduced Water Peak	Sheath property for new	Text	4	FAS
  (RWP) fiber type	cables
  Length	Sheath length	Numeric	8	FAS; records
  				measurement
  				associated with
  				fiber splice
  Environment	Sheath environment as	Text	6	FAS
  	described by FRC
  Status	Assignment condition -	Text	10	LEIM, TIRKS,
  	working, assigned, spare,			Personal Notes
  	planned

• 8.16 Equipment Location

• 		Data	Max.	Source (Primary,
  Data Definition	Description	Type	Char.	Secondary)

  District Name	District location	Text	25	LEIM, FAS
  	resides in
  Address	Street Address of	Text	30	LEIM, FAS
  	location
  Area #	Code the uniquely	Text		6	LEIM, FAS
  	identifies address
  Location #	RT and CLLI #	Text	15	LEIM
  Structure Type	Type of structure to	Text	8	LEIM, FAS
  	house DLE

• 8.17 Conduit

• 		Data	Max.	Source (Primary,
  Data Definition	Description	Type	Char.	Secondary)
  Conduit Run	Group of conduits	N/A	N/A	N/A
  	traversing same
  	route
  Conduit Type	Material descrip-	Text	15	FAS,
  	tion of conduit			personal notes
  Conduit	Graphical loca-	Graph-	N/A	FAS
  Location	tion of Conduit	ical
  	run
  Conduit length	End to end length	Numeric	8	FAS
  	of conduit to the
  	nearest foot
  Manhole name	Name assigned to	Text	8	FAS
  	manhole
  Manhole	Graphical loca-	Graph-	N/A	FAS
  locations	tion of manhole	ical
  Hand hole	Name assigned to	Text	5	FAS
  name	manhole

9 Use Case Modeling
• Purpose: The purpose of this section is to provide a high-level understanding of core system functionality, both user and machine-driven, for FMT.
• Discussion: Use-Case diagramming is a simple modeling technique that illustrates the various entities—human and machine (called “Actors”)—that can interact with the proposed system. Use-Case diagrams provide a high-level, graphical summary of embodiments and are also useful during the development phase for defining objects in a system.
• 9.1 Use Case Descriptions
• 9.1.1 Use Case: Login and Password
• 9.1.1.1 Description
• This use case describes how a user logs into the system. The user needs a valid username and password, which is created by the system administrator. When the user logs in with the correct username and password, the system recognizes the user and sets their appropriate permissions and preferences.
• 9.1.1.2 Actors
• • Facility Planners
  • Engineering Assistants
  • Transmission Engineers
  • Construction Technicians
  • Long Term Planners
  • OSP Engineers
• 9.1.1.3 Normal Sequence

• Sequence
  Number	Description
  1.	The user double-clicks an icon or a selection from the
  	Windows NT Start Menu and launches the application.
  2.	The user enters a CUID (Common User Id) and Password.
  3.	The application determines the user's role type (Loop
  	Capacity Manager, Engineering Assistant, etc.) and
  	default District and makes appropriate functionality
  	available.
  4.	User enters the system with their default settings

• 9.1.1.4 Alternative Sequence
• The user forgets his/her password or enters the wrong password. The system can prompt the user to reenter the password. If the user has forgotten his/her password, they can have to contact the system administrator to reset password.
• 9.2.2 Use Case: Search/Find, View Graphical Elements
• 9.2.2.1 Description
• This use case allows the user to search/find or view graphical elements from within the system. The user can input a search with/without a wildcard or select from a list what they would like to view. The user may also narrow or refine their search to obtain additional information about the search.
• 9.2.2.2 Actors
• • Facility Planners
  • Engineering Assistants
  • Transmission Engineers
  • Construction Technicians
  • Long Term Planners
  • OSP Engineers
• 9.2.2.3 Normal Sequence

• Sequence
  Number	Description
  1.	User logs into system (see use case: 9.1.1)
  2.	User inputs a fiber name, or a part of a fiber name with
  	a wildcard. The application accepts the query and returns
  	a diagram or tabular data based on user's request of the
  	fiber ring from the originating Central Office.
  3.	The user “Zooms In” or “Zooms Out” as needed. The
  	system can display more geographic and infrastructure
  	detail when the users “Zoom In” and less detail when they
  	“Zoom Out.”
  4.	The user selects a feature and the application returns a pop-
  	up window with detailed information about the feature.
  5.	The user selects an “Additional Info” option to drill down
  	for additional data on the feature.
  6.	The user can print, change focus to another application on
  	the desktop (ALT-TAB for example), re-query or close the
  	window.

• 9.2.2.4 Alternate Sequences
• The user enters a query based on: equipment type constrained by Central Office (Wire Center), remote terminal (which returns all equipment), fiber sheath, or street address. The returned diagram can support zoom in and zoom out features. If the equipment has data associated with it in more than one external system, the returned data window can show the discrepancies. FIG. 12 suggests the concept.
• 9.2.3 Use Case: Query Network Facility Items
• 9.2.3.1 Description
• This use case allows the user to query network facility items from within the system. The system allows the user to search with multiple parameters and wildcards. The user can also narrow the query and view an item by type, date, etc.
• 9.2.3.2 Actors
• • Facility Planners
  • Engineering Assistants
  • Transmission Engineers
  • Construction Technicians
  • Long Term Planners
  • OSP Engineers
• 9.2.3.3 Normal Sequence

• Sequence
  Number	Description
  1.	User logs in (see use case: 9.1.1)
  2.	On the query screen, the system can provide multiple
  	parameters for a search. For example, a user may want
  	to view fiber sheath(s) by Manufacturer, Type, and
  	Year Placed.
  3.	The user can be able to further narrow the search. For
  	example, a user enters Manufacturer and Year Placed
  	as parameters, and FMT displays a listing of all sheaths
  	meeting the criteria.
  4.	User selects an individual facility item to review its data
  	attributes
  5.	User can select another item or log out

• 9.2.3.4 Alternative Sequence
• The user may misspell a word or leave out part of a word. The system should query for words that are similar to the one entered by the user. If no data exists for the parameters entered, the system should prompt the user to try another search.
• 9.2.4 Use Case: Provide Calculation Tools
• 9.2.4.1 Description
• This use case allows the user to obtain calculations from the system by entering criteria into the system or selecting areas or items to be calculated. The system has calculation tools that it uses in the backend to perform such activities. The user may view the calculation graphically or in a tabular format.
• 9.2.4.2 Actors
• • Facility Planners
  • Engineering Assistants
  • Transmission Engineers
  • Construction Technicians
  • Long Term Planners
  • OSP Engineers
• 9.2.4.3 Normal Sequence

• Sequence
  Number	Description
  1.	User logs in (see use case: 9.1.1)
  2.	On the main screen, the user selects what they want
  	calculated or measured
  3.	A user may select points graphically, manually input
  	locations, etc. and the system can use the appropriate
  	tool and display the output for the user
  4.	The user may input other variables or criteria to obtain
  	other calculations, etc.
  5.	Once the user is done he logs out of the system

• 9.2.4.4 Alternative Sequence
• The user may enter a wrong spelling of a word when entering search criteria or select an invalid area on map. The system can prompt the user to try again. The user may want to calculate multiple point distances from the map.
• 9.2.5.1 Use Case: Integrate Fiber Related Data
• 9.2.5.1 Description
• This use case allows the user to obtain data that is stored in external systems or in the system's database. The system pulls data from external system and integrates it to display an output for the user.
• 9.2.5.2 Actors
• • Facility Planners
  • Engineering Assistants
  • Transmission Engineers
  • Construction Technicians
  • Long Term Planners
  • OSP Engineers
• 9.2.5.3 Normal Sequence

• Sequence
  Number	Description
  1.	User logs in (see use case: 9.1.1)
  2.	The system can provide the user with the ability to
  	select in a graphical environment or on a query screen,
  	and view results in a tabular format.
  3.	On the main screen, the user selects an item on a query
  	screen or chooses one from a list or select one from the
  	items currently visible.
  4.	The user may input other variables or criteria to obtain
  	other more detailed information, etc.
  5.	The system obtains the appropriate data from external
  	systems and/or its database in the backend and displays
  	the output for the user to view.
  6.	The user views the data and may do another search or
  	refine the search further.
  7.	User logs out when finished.

• 9.2.5.4 Alternative Sequence
• The user may enter a search criterion that is not valid or not recognized by the system. The data may not have been integrated from the external systems into the main system, FMT. The system can then display on screen a message that data entered is not recognized by the system, please try again.
• 9.2.6 Use Case: Provide Fiber Tools and Reports
• 9.2.6.1 Description
• This use case provides user to use tools and view reports generated by the system. The system contains fiber tools that help the user in determining status, priority, or other information about fiber.
• 9.2.6.2 Actors
• • Facility Planners
  • Engineering Assistants
  • Transmission Engineers
  • Construction Technicians
  • Long Term Planners
  • OSP Engineers
• 9.2.6.3 Normal Sequence

• Sequence
  Number	Description
  1.	User logs in (see use case: 9.1.1)
  2.	On the main screen, the system provides various tools
  	for the user to use.
  3.	User selects a tool in order to perform a certain function
  	to a fiber, fiber strand, etc. such as assign reservation
  	status, restoration priority, fiber strand diversity.
  4.	The system assigns the value appropriately to the fiber
  	according to what the user indicated.
  5.	The user also may print out or view a report about the
  	fiber, etc.
  6.	User logs out when finished.

• 9.2.6.4 Alternative Sequence
• The user may select the wrong tool to assign value to fibers. The system can allow the user to make changes and can ask the user for a confirmation on the changes made. These changes or additions can vary on user permissions.
• 9.2.7 Use Case: Create, Read, Update, Delete LRS
• 9.2.7.1 Description
• This use case allows user to go into the planning part of FMT. Users can be able to create, read, update, and delete location relief strategies. The functions they can perform can depend on the privileges and permissions that they have according to the login.
• 9.2.7.2 Actors
• • Facility Planners
  • Engineering Assistants
  • Long Term Planners
• 9.2.7.3 Normal Sequence

• Sequence
  Number	Description
  1.	User logs in to system (see use case: 9.1.1)
  2.	User launches Location Relief Strategy with menu item or
  	toolbar button.
  3.	User selects the activity they would like to perform (create,
  	read, update, etc.)
  4.	The system opens a LRS or allows user to create a new
  	Location Relief Strategy.
  5.	User selects a Central Office or area of interest on the
  	District map and “Zooms In”
  6.	The user selects symbols, lines from an object palette and
  	draws the design.
  7.	User enters comments in comment fields for each object
  	placed on the diagram.
  8.	User saves design and selects a “Publish” or “Private”
  	option. The Publish option can make the design available to
  	other users with access to the planning layer.
  9.	User logs off when finished.

• 9.2.7.4 Alternate Sequences
• The user may choose to delete or update a LRS, but not have permission to do so. The system can display a message that the user does not have permission o do the task selected. The user may add comments about the LRS that can be seen by the creator of the LRS and anyone else who has access.
• 9.2.8 Use Case: View Cross Box Data for Planning
• 9.2.8.1 Description
• This use case allows user to get information about cross boxes in order to use it for planning purposes. The user can be able to do a search or query on cross boxes by date and attach the output data to the LRS they create. This data can used for Location Relief Strategies.
• 9.2.8.2 Actors
• • Facility Planners
  • Engineering Assistants
  • Long Term Planners
• 9.2.8.3 Normal Sequence

• Sequence
  Number	Description
  1.	User logs in (see use case: 9.1.1)
  2.	On the main screen, the user can select cross box data.
  3.	User can enter search date parameters for the system
  	to check cross box fills, etc. for the dates specified.
  4.	The system can display in graphical and tabular form
  	the cross box data.
  5.	User can have the option to attach this data to the LRS
  	that the user can create. If it is attached to the LRS,
  	then anyone who can view the LRS can be able to view
  	the cross box data.
  6.	User does a search for a LRS
  7.	User associates LRS with Cross Box data
  8.	User logs out when completed.

• 9.2.8.4 Alternative Sequence
• The user may want to attach more than one cross box report. The system can allow the user to attach additional reports for each LRS created.
10 Technical
• Purpose: This section defines the scope of the architectural platform and the subset of standards applicable to OPEDS Software development. This section can also reference security and other development standards.
• 10.1 General
• A standards based approach to software development may be designed to promote high data integrity, open systems, improved responsiveness to user functionality changes, enhanced reliability and availability, and security of corporate resources, economic efficiency, and scaleable, distributed systems. This section can define the overall scope of the architectural platform and the subset of standards applicable to OPEDS software development. Included can be an overview of the current OPEDS application and infrastructure architectures. This section can also reference security and other development standards.
• 10.2 Computing Architecture
• Technical Reference 73579 Standards can be used in the design, implementation and management of software modules that form an information network. The industry standards for languages, protocol services, interfaces, computer models, etc. may be used. These standards also form the yardstick by which Commercial Off The Shelf (COTS) or prepackaged software applications are considered for deployment. Other conventional computing architectures may be used.
• 10.3 Computer Asset Protection Guidelines
• The Corporate Security Standards practices may be provided.
• 10.4 SDLC
• System Development Life Cycle is a repeatable, corporate-endorsed development methodology that is followed for internally developed systems or major enhancement to an existing system. FIG. 13 depicts the System Development Life Cycle.
• 10.5 Other Standards and Guides
• 10.5.1 GUI Style Guide
• Not applicable.
• 10.5.2 Capability Maturity Model (CMM)
• The CMM is an industry-accepted model for software development processes and was developed by the Software Engineering Institute (SEI) at Carnegie Mellon University.
• 10.5.3 Metrics
• Each application, regardless of the SDLC methodology being followed, may collect primitive metrics to be used as an aid in the effective management and maintenance of software. Primitive metrics are those measures that are applicable to any application, regardless of the hardware or software involved. SLIM (Software Life Cycle Management) and SLIM-Control are the tools used to predict and track project defects. Primitive metrics include but are not limited to the following:
• 1. Size of the project in function points
• 2. Lines of Code, by type
• 3. Time to complete the project (broad measure of staff hours)
• 4. Number of defects originating in each SDLC phase
• 10.5.4 Configuration Management
• A configuration management tool may be used for control of managed/on-site developed software. IBM's CMVC (Configuration Management Version Control) system is currently (circa 1999) used by OPEDS for all software and documentation to manage versions and configurations. COTS or custom code developed at a supplier's facility must be managed by the supplier's configuration management system.
• 10.6 Technical Design
• 10.6.1 Design
• OPEDS uses a multi-tier architecture. OPEDS is modular in design to promote reuse of system service components. Business logic is accessible through application services. Application services are independently executable. Application services shall be capable of being independently authorized. OPEDS can be modular in design to allow for the addition of new features (e.g., objects and methods) without a need to alter existing functionality.
• 10.6.2 Open Systems
• The system may be compliant with open system standards.
• 10.6.3 Open APIs
• OPEDS shall use an Open API (or Middleware) to provide connection management to:
• • Client/presentation layer (e.g., Windows Client, WEB Browser)
  • Business processing layer
  • External interfaces
  • Reporting elements (e.g. COTS reporting tool)
  • Database elements. This can exclude Database Administrator updates to system-related data, but not user-related data.
• 10.6.4 Interfaces
• Communications with external systems and inter-application data transfers can use standard technology.
• 10.6.5 PC Client Data Access
• CORBA 2.0 (ORBIX) compliant software can be the primary middleware product for accessing data from a Windows-NT based client. ODBC, INET, and/or SQLNet can be a secondary option for limited special use situations.
• 10.6.6 Portability
• The system can be designed so as to provide for platform portability with minimal change (i.e. Windows NT platform to a UNIX platform, or between UNIX platforms.).
• 10.6.7 Software Development Tools
• For custom developed software, the software development tools can be consistent with a Software Development Tool Approved Products List.
• 10.6.8 Naming Conventions
• For custom developed software, the supplier can use naming and coding conventions that are consistent with standards.
• 10.6.9 Information Modeling
• Any information modeling tools used by external suppliers can be industry standards.
• 10.6.10 Data
• The integrity of any replicated database(s) should be maintained on an as close to real-time basis as feasible. Synchronization of a replicated database may not affect the user.
• 10.6.11 Data Movement
• Data transfer between data stores can use middleware that minimizes the amount of human interaction required to set up and monitor the event. Consistent and reliable data can be available for inquiry in a timely manner. An accurate and reliable log of all data transfers between data stores to support an effective audit trail and ensure data integrity can be fully implemented.
• Specific transfer methods can be utilized as follows:
• • Low volume transfers that do not require automation can utilize ftp.
  • High volume transfers can utilize Sterling Connect: Direct for inter-company transfers and BUFIT for intra-company transfers.
  • Database to like database transfers should utilize native transfer modes (i.e. SQLNet).
• 10.6.12 User Interface Design
• Data entry screens should be designed so that users are not required to enter the same data more than once. For example, as an OPEDS user moves from screen to screen (i.e., parent-child screens), OPEDS can automatically retrieve data for fields, which exist in both screens from the previous screen and populate the fields in the current screen. OPEDS shall provide a single sign-on Graphical User Interface (GUI) for end-user access and end-user application administration (i.e., defining activation scripts, modifying tables). The GUI display can be Windows-NT based, consistent in icon usage and color assignment, consistent in placement of buttons and menus, consistent in its look and feel, and consistent in presentation of choices to the user provided via pick lists, pull downs, or pop up menus. The system can perform dynamic validation of all user input.
• 10.6.13 On-line Help
• OPEDS can provide on-line help.
• 10.6.14 Security Embodiments
• Corporate Security Standards practices, should be met.
• 10.6.15 User Identification
• User identification can be a CUID (Common User ID).
• 10.6.16 Security Audit
• Security audits can be performed in accordance with Corporate Security Standards practices.
• 10.6.17 Operations
• OPEDS can be designed to support high availability. OPEDS shall have the capability to be initialized/terminated by manual input or automated script. Each application service can be documented in the context of appropriate libraries. OPEDS shall retain a log of all activation events. OPEDS can provide the capability for daily removal of all completed activation's from the on-line database and for sending them to an archive (i.e., a non-OLTP database, data warehouse database). OPEDS can be remotely administered. A single point of administration, per domain, shall be provided to manage CUIDs and passwords.
• 10.6.18 Backup and Recovery
• All corporate data can be backed up.
• 10.6.19 Application Management
• OPEDS can support application management:
• • Administration (TA Unicenter)
  • Performance (BEST1)
  • Software Distribution (DDS for UNIX, and WinDSS for Windows-NT based clients with later migration to SMS (System Management Services) for Windows-NT based clients)
  • Database (TA Unicenter)
• 10.6.20 Error Resolution
• 10.6.20.1 Client Application/User Errors
• OPEDS client software can display error-messages on-screen and provide a meaningful nomenclature for notification and resolution.
• 10.6.20.2 Technical Errors
• A standard process may be used to log error messages within the OPEDS server-side computing environment. The supplier can use this process to log errors and provide a meaningful nomenclature for error messages and their resolution.
• 10.6.21 Timing Embodiments
• The system can be designed to insure presentation layer (i.e. GUI) response times for non-background processes in a range that does not exceed performance thresholds specified in the embodiments documentation as measured from the time of the user keystroke entry to the time of the system response to that entry.
• 10.6.22 Load Projections
• At the completion of the design phase, the supplier can be responsible for projecting the CPU, memory, and DASD (Direct Access Storage Device) embodiments for each system platform (client, application server, database server).
• 10.6.23 Software Delivery
• OPEDS software may have version control. Software received shall include release notes as delineated in the OPEDS Definition of Deliverables and a summary of new features or software fixes since the last version. Received OPEDS software shall include release installation, transition and/or data conversion notes as well as fallback procedures.
• 10.6.24 Work Center Application Integration Group
• The supplier can be responsible for working with the Work Center Application Integration group to provide any and all variables and processes required to configure and administer the system including specifying the necessary environment levels, product levels, component levels, patch levels, etc. upon which their product must operate.
• 10.7 Current OPEDS Architecture
• 10.7.1 Overview
• OPEDS is a distributed system that can run in more than 30 Telecommunication Company's districts and in a corporate environment. The Process/Data Management layer is provided by the OPEDS project. In general, client-side user interfaces communicate with the OPEDS Process/Data Management layer. Orbix, a commercial product that provides a CORBA-compliant interface to the OPEDS Process/Data management layer, is used for this communication.
• In general data retrieval can fall into two categories:
• 10.7.1.1 External System Data
• The OPEDS Process/Data management layer can manage data supplied by External Systems and master data maintained in OPEDS. OPEDS client software has access to External Systems data through an API (Application Programming Interface) provided by OPEDS.
• 10.7.1.2 OPEDS
• Some applications retrieve data directly from OPEDS such as graphics, land and facility attribute data.
• 10.7.2 Workstation Specifications
• The OPEDS clients can, for example, run on PCs that meet the minimum following criteria:
• • 166 Pentium Mhz Processor
  • 32 megabytes of RAM, at minimum (64 megabytes is the norm)
  • The Outside Plant (OSP) NT Workstation baseload
  • Windows 32-bit API compliant (16 bit applications are NOT permitted)
• 10.7.3 Server/Database Specifications
• Any server-side code can run in the currently deployed OPEDS versions of HP-Unix 11.X and Oracle 8.X. In addition, the code can run in a high-availability environment (i.e., HP's Service Guard). There are two classes of servers:
• 1) Local Server
• Local application servers are UNIX-based HP servers running HP/UX. Software should be developed so as to minimize work when migrating to new OS release levels. Local servers provide database, application and file/print services.
• 2) Data Center Servers
• Two types of data center servers exist for OPEDS: corporate database servers and an archive server. The (REDS corporate database systems are implemented on a UNIX operating system and deployed on an HP hardware platform. These data center servers can be the central database repositories. Data Stores Oracle has been chosen as the primary relational data store for OPEDS data.
• 10.7.4 System Diagram
• FIG. 14 depicts the three-tier architecture with external systems.
• 10.8 Computing Architecture
• 10.8.1 OPEDS Data Repositories
• OPEDS currently has two repositories for land and facility data:
• 10.8.1.1 Landbase
• The landbase data model is mastered in ESRI's (Environmental Systems Research Institute, Inc.) SDE (Spatial Data Engine) format. The landbase model also stores redundant graphical facility data mastered in facilities (see below). Specifications of the landbase model are available upon request.
• 10.8.1.2 Facilities
• The OPEDS facilities data model comprises data in Oracle, as well as graphical files on a central server. The graphics files are in Microstation .DGN format. Facilities graphics information for a given area is stored in a .DGN file; corresponding land information is stored in a .LND file.
• Specifications of the Facilities model are available upon request.
• 10.8.2 Network Information Services
• NIS is used to provide consistency and synchronization of UNIX system files across a homogeneous environment. The NIS domains are unique per district server environment with the Job Management Server acting as the NIS domain master server and all of the other district UNIX servers acting as secondary or slave NIS servers.
• 10.8.3 Domain Name System (DNS)
• The Domain Name System (DNS) is a distributed database that runs on Regional Data Center UNIX hosts, providing a hierarchical naming system for identifying hosts on BOSIP (Open Systems Interconnect Platform). The key embodiment for OPEDS applications is to use DNS to resolve host names stored in OPEDS configuration files. OPEDS applications cannot store IP addresses in configuration files and can only store host names. This can facilitate redirecting clients to alternate servers in failure situations. NetManage TCP/IP software can be configured to utilize DNS to support OPEDS node name resolution.
• 10.8.4 OPEDS Process/Data Management Layer
• The OPEDS Process/Data Management Layer provides access to data located on various application and data servers. This service can provide contract and messaging API(s) to directly access legacy data systems where available and provide access to intermediate service providers to legacy systems as well. These service providers can provide a variety of services including terminal emulation access to legacy 3270-based systems.
• 10.8.5 Wide Area Network
• The Outside Plant networking environment consists of LANs interconnected to form a Wide Area Network (WAN) via BOSIP. In addition, access is provided to the Virtual Circuit Switch Network (VCSN). The goal is to provide the users with transparent and reliable access to all essential OSP systems as well as to legacy systems.
• In the OPEDS architecture, BOSIP is the backbone upon which the majority of data communication relies. BOSIP is a Transmission Control Protocol/Internet Protocol (TCP/IP) based network, which fully supports distributed computing as outlined in the RSCA strategy. The design goal is to provide universal communication services independent of the underlying physical network. OPEDS utilizes the TCP/IP protocol.
• 10.8.6 External System Data
• The OPEDS Process/Data management layer can manage data supplied by External Systems and master data maintained in OPEDS. OPEDS clients have access to the External Systems data through an API (Application Programming Interface) provided by OPEDS.
• 10.9 OPEDS Topology
• FIG. 15 depicts an OPEDS topology.
• 10.9.1 Data Center
• A data center is shown in FIG. 16.
• The OPEDS Corporate Data Stores for facilities and land are located in the Charlotte Data Center. The archive server and storage are located in the Data Center as well. OSPCM and legacy systems are located in all production data centers.
• 10.9.2 Typical District/RLAC
• FIG. 17 depicts a District/RLAC.
11 Reference Items
• 11.1 Glossary of Terms for the FMT and Systems

• Asynchronous
  Digital
  Subscriber Line
  Description:	Digital communications services available
  	over twisted pair copper lines.
  Assignment
  Data
  Description:	Data generally associated with the location
  	of fiber terminations, and the MUXs the
  	fibers are traveling through.
  CO	Central Office
  Description:	Central location where all facilities inside
  	a wire center terminate.
  CUID	Common User ID
  Description:	The 7-character unique user id for all FMT
  	Users.
  DLE	Digital Loop Electronics
  Description:	Digital transmission equipment used to
  	generate DS0, DS1 and DS3 signals etc.
  EWO	Engineering Work Order
  Description:	OSP authorization to perform construction
  	work activity.
  FITL	Fiber in the Loop
  Description:	Communication platform that uses fiber to
  	deliver services to the customer's curb.
  FMT	Fiber Management Tool
  Description:	The proposed module of OPEDS that is the
  	focus of this document.
  FOX	The Fiber Optic Xconnect system
  Description:	A system used by Inter-Office planners to track
  	of Multiplexer (MUX)/LGX assignments.
  HW	Hardwired
  Description:	DLE equipment in place, but not active
  IOF	InterOffice Planner
  Description:	Planner responsible for planning and adminis-
  	tering facilities between Central Offices.
  IP	Long Term Planner
  Description:	Planner that performs high-level district fiber
  	optic route planning.
  IPID	Item of Plant Identification
  Description:	Capitalized material identification number.
  LATA	Local Access Toll Area
  Description:	Local calling area controlled by local access
  	provider.
  FACILITY	Loop Capacity Manager
  PLANNERS
  Description:	Planner Responsible for non-Central Office
  	locations and facilities.
  LEIM	The Loop Equipment Inventory Module
  Description:	The corporate repository of OSP Digital Loop
  	Electronic data.
  LFACS	The Loop Facility Assignment Control System
  Description:	The system used to monitor and assign facilities.
  	The system monitors the copper network, but
  	also has fiber and equipment information.
  	LFACS stores fiber assignment information for
  	some, but not all, Wire Centers. The data in
  	LFACS mirrors the data in LEIM.
  LGX	Light Guide Cross Connect
  Description:	Termination equipment for fiber optic cables
  	and jumpers.
  LMU	Loop Make Up
  Description:	Loop distance and cable characteristics associated
  	with a specific cable pair.
  MUX	Multiplexer
  Description:	DLE equipment used to aggregate or segregate
  	digital signals.
  NMLI	Native Mode LAN Interconnection
  Description:	MUX and fiber connections between LANS
  ONU	Optical Node Unit
  Description:	OSP termination point for FITL distribution fiber
  	at the customer's location.
  OPEDS	Outside Plant Engineering Design System
  Description:	A system Outside Plant facilities and landbase.
  OSP	Outside Plant Engineer
  Description:	Engineers responsible for all facilities not in
  	a Central Office.
  OTDR	Optical Time Domain Reflectometer
  Description:	Equipment used to test fiber spans with an
  	optical test.
  PG	Pair Gain
  Description:	Designation assigned to DS0 counts derived
  	by DLE.
  RSDC	Regional Design Source Code
  Description:	Code used to order DLE equipment via OSPCM
  	(Outside Plant Construction Management System)
  	instead of TEO.
  ROW	Right of Way
  Description:	Municipal-owned property associated with public
  	infrastructure.
  RT	Remote Terminal
  Description:	DLE location outside of a central office.
  SCID	Sonet Circuit Identification
  Description:	Unique identification given to SONET
  	systems.
  SONET	Synchronous Optical Network
  Description:	A type of fiber optic network that requires the
  	two endpoints to synchronize data transmission.
  TEO	Telephone Equipment Order
  Description:	Form used to order DLE from outside company.
  TIRKS	Trunks Inventory Record Keeping System
  Description:	The corporate repository of InterOffice digital
  	equipment and digital circuits.

12 Further Details with Respect to Methods, Systems and Computer Program Products for Planning Resources Based on Primary and Alternate Location Relief Strategies
• FMTs and systems for planning resources based on location relief strategies have been described above in accordance with some embodiments of the present invention. This section more generally describes the methods, systems and computer program products for planning resources based on primary and alternate location relief strategies according to some other embodiments of the present invention.
• FIG. 18 is a block diagram of a resource planning system 100 and associated methods and computer program products in accordance with some embodiments of the present invention. The data processing system 100 typically includes input device(s) 132 such as a keyboard or keypad, a display 134, and a memory 136 that communicate with a processor 138 via an address/data bus 148. The processor 138 can be any commercially available or custom microprocessor. The data processing system 100 may further include a speaker 144 and I/O data ports 146 that also communicate with the processor 138. The I/O data ports 146 can be used to transfer information between the data processing system 100 and another computer system and/or a network. These components may be conventional components, such as those used in many conventional data processing systems, which may be configured to operate as described herein.
• The memory 136 is representative of the overall hierarchy of memory devices containing the software and data used to implement the functionality of the resource planning system 100. As shown in FIG. 18, the memory 136 may include several categories of software and data used in the resource planning system 100: an operating system 152; application programs 154; input/output (I/O) device drivers 158; and data 156. As will be appreciated by those of skill in the art, the operating system 152 may be any operating system suitable for use with a resource planning system, such as OS/2, AIX, System390 or Z/OS from International Business Machines Corporation, Armonk, N.Y., Windows95, Windows98, Windows2000 or WindowsXP from Microsoft Corporation, Redmond, Wash., Unix or Linux. The I/O device drivers 158 typically include software routines accessed through the operating system 152 by the application programs 154 to communicate with devices such as the I/O data port(s) 146 and certain memory 136 components. The application programs 154 are illustrative of the programs that implement the various features of the resource planning system 100 and preferably include at least one application which supports operations according to embodiments of the present invention. Finally, the data 156 represents the static and dynamic data used by the application programs 154, the operating system 152, the I/O device drivers 158, and other software programs that may reside in the memory 136.
• As is further seen in FIG. 18, the data 156 can include data sets that define resources 160, geographic information 162, and location relief strategy plans 164, and that may also define resource needs data sets 166. The geographic information data 162 may define roads, buildings, and/or topographical information, such as was discussed above. The resource data 160 may define the location, type, number, performance, cost, availability and/or other characteristics of resources, such as was discussed above. The defined resources may include, but not be limited to, central offices and fiber optic and electrical communication lines. The resource data 160 may define where resources are presently located relative to the geographic information data.
• The resource needs data sets 166 may define one or more resource capacity needs that are associated with geographic locations. For example, one of the resource needs data sets 166 may define a number of communication lines and/or communication bandwidth that is presently needed or projected to be needed at a defined geographic location. The term “location” as used herein can include a defined geographic point, such as a mail address or latitude and longitude coordinates, and can also include a geographic area. The LRS plan data sets 164 may define one or more LRS plans that are associated with each of the resource needs data sets 166. For example, one of the LRS plan data sets 164 may define a number of resources, such as resources for carrying telecommunications (e.g., fiber optic communication lines and/or electrical communication lines), gas lines, water lines, cable television lines, and/or electrical lines, that may be installed and/or retired at a geographic location on a defined date in an attempt to satisfy the resource needs defined by one of the resource needs data sets 166.
• More than one of the LRS plan data sets 164 may be associated with one of the resource needs data sets 166. When more than one of the LRS plan data sets 164 are associated with one of the resource needs data sets 166, one of them may be defined as a primary LRS plan and the others may be defined as an alternate LRS plan. The primary LRS plan may correspond to what a Long Term Planner perceives as a preferred way of satisfying the associated resource need, while the alternate LRS plans may correspond to what are perceived as less preferred ways. Accordingly, a preferred LRS plan and one or more alternate LRS plans may be defined in the LRS plan data sets 164 and associated with each resource need defined in the resource needs data sets 166. Such association of preferred LRS plan and alternate LRS plans with a resource need may allow a Long Term Planner to define many different resource plans for meeting a resource need, and to designate a preferred resource plan while maintaining the other LRS plans for further use (e.g., documentation and/or analysis).
• The application programs 154 can include a resource planning application 170, which may include a database 172. Although the database application 172 is illustrated as part of the resource planning application 170, for purposes of illustration only, in some other embodiments of the present invention the functionality of the database application 172 may be at least partially outside the resource planning application 172. The database application 172 may be any conventional database application that performs conventional data functions such as, for example, Oracle, Microsoft Access, or a custom database application. The resource planning application 170 can import data sets, including existing resource, geographic data, LRS plans, and/or resource needs, from the data portion 156 of the memory 136 into the database 172.
• The resource planning application 170 can be one or more GIS tools that can allow a planner to define and associate resources with geographic features in digitized maps. The resource planning application 170 may allow a user to at least partially define and/or evaluate the resources 160, the geographic information 162, the resource needs 166, and/or the location relief strategy plan 164. For example, the resource planning application 170 may allow a user to associate one more LRS plans 164 with one of the resource needs 166, and to define which of the associated LRS plans 164 is a primary LRS plan and/or which are alternate LRS plans. When a plurality of the LRS plans are associated with a resource need, the LRS plans may be prioritized (e.g., ranked). A highest priority one of the LRS plans may then be defined as a primary LRS plan, and the other LRS plan(s) may be defined as alternate LRS plans. In some embodiments of the present invention, only one of the LRS plans 164 that are associated with one of the resource needs 166 can be defined as a primary LRS plan.
• The resource planning application 170 also generates a resource plan based on the primary LRS plan and/or the alternate LRS plan. The generated resource plan may be generated by, for example, displaying on the display 134 the resources that presently exist in a defined geographical area, as defined by the resource data sets 160, and the primary LRS plan and/or alternate LRS plan. The displayed resources and plans may be overlaid on a map formed by a relevant portion of the geographical information data 162. A resource planner or other user may use the input devices 132 to select which of the LRS plans 164 are included in the resource plan. For example, a resource plan may be generated based on the primary LRS plans, or it may be generated based on selected ones of the primary LRS plans and/or alternate LRS plans. A user may also define access privileges for the LRS plans, such as public or private, which may be used by the resource planning application 170 to limit access of one or more of the LRS plans to users who satisfy the defined access privileges.
• The resource planning application 170 may generate a resource plan that combines all or selected ones of the primary LRS plans and/or alternate LRS plans for more than one of the defined resource needs 166, and/or the resource planning application 17Q may generate a different resource plan for each of the defined resource needs 166.
• Reference is now made to FIG. 19, which illustrates existing resources and two resource needs 220 and 230 as they may be displayed by a resource planning system according to some embodiments of the present invention. The existing resources include two central offices (COs) 202 and 204 and electrical communication lines 210 a-j that are communicatively connected to the central offices 202 and 204. Each of the electrical communication lines 210 a-j include defined characteristics that include a reference number (i.e., 2XXX), a planned installation date (i.e., 2004 or 2005), the number of copper pairs in the line, the gauge (i.e., thickness) of the copper pairs, and the connections between, and relative locations, of the lines 210 a-j and the central offices 202 and 204. Each of the resource needs 220 and 230 have been defined for a geographic position relative to the existing resources. A user, such as a resource planner, may then use the resource planning system to define and compare LRS plans that may satisfy the defined resource needs 220 and 230.
• An example resource plan 300 is illustrated in FIG. 20 that combines the existing resources and defined primary and alternate LRS plans responsive to the resource needs 220 and 230. One primary LRS plan 310 has been defined and associated with the resource need 220. One primary LRS plan 320 and two alternate LRS plans 330 and 340, which are proposed alternative plans, have been defined and associated with the other resource need 230. The primary LRS plan 310 defines a planned connection from the communication line 210 f to the resource need 220 in the year 2005. The primary LRS plan 320 defines a planned connection from the central office 204 to the resource need 230 in the year 2004. The alternative LRS plan 330 defines a connection from the communication line 210 h to the resource need 230 in the year 2005, and the other alternative LRS plan 340 defines a connection from the communication line 210 b to the resource need 230 in the year 2004.
• According to some embodiments of the present invention, a user may select which of the primary and/or alternate LRS plans are to be displayed with the existing resources. For example, with reference to FIG. 21, the resource plan 300 has been illustrated with the primary LRS plans 310 and 320 shown, and the alternative LRS plans 330 and 340 (FIG. 20) hidden. Accordingly, a user may view only the primary LRS plans and hide any alternate plans. A user may similarly filter what information in a resource plan is displayed based on attributes that are associated with the LRS plans, such as when LRS plans are expected to be completed, whether resources associated with LRS plans are direct buried (e.g., buried in the ground without a conduit), buried within a conduit, and/or suspended on a utility pole. A user may thereby selectively view what resources can be available by a particular date and/or based on other attributes that are associated with the resources. The resource plan(s) may be overlaid on geographic information, such as the geographic maps that are illustrated and described above.
• A resource management system may alternatively, or additionally, generate reports on existing and/or planned resources relative to dates and/or needs. The resource management system may also summarize the individual and/or combined characteristics of the existing and/or planned resources, including location, type, number, performance, cost, availability and/or other characteristics of resources, such as those discussed above.
• A user may thereby define and/or evaluate in the resource planning system one or more resource needs, and may then define and/or compare one or more LRS plans that may be used to address the resource needs. A user may also change the designation of a LRS plan, such as from primary to alternate or vice-versa. More than one LRS plan may be associated with a resource, and the LRS plans may be relatively defined as primary and alternate plans. By maintaining the alternative LRS plans associated with a resource need, in addition to the primary LRS plans, the resource planning system may document for later use why a particular LRS plan was selected.
• Although the resource planning application 170, the database 172, and the components of the data 156 of memory 136 are illustrated in FIG. 18 as being part of a single resource planning system 100, as will be appreciated by those of skill in the art, the illustrated functionality and data may be distributed across one or more resource planning systems. For example, the functionality of the database 172 and the resource data 160 and geographic information data 162 may be provided on one or more resource planning systems that are separate from the resource planning system that provides the functionality of the resource planning application 170, the local relief strategy plan data 164, and/or resource needs data 166. It will also be appreciated that various applications could be incorporated into some other logical division of the resource planning system 100. Thus, the present invention should not be construed as limited to the configuration of FIG. 18, but is intended to encompass any arrangement, division of functions between resource planning systems and/or configuration capable of carrying out the operations described herein.
• Reference is now made to FIG. 22 which illustrates a flowchart of operations that may be used to planning resource according to various embodiments of the present invention. At Block 400, existing resource that are associated with a defined geographic location are imported into the resource management application. At Block 410, geographic information that is associated with a defined geographic location is imported into the resource management application. At Block 420, resources needs are defined. At Block 430, LRS plans that are defined and associated with a resource need and/or are imported into the resource management application. At Block 440, one of the LRS plans is defined as a primary LRS plan, and, at Block 450, other ones of the LRS plans are defined as alternate LRS plans. As will be appreciated, the defined/imported LRS plans may be defined by a default alternate/primary designation so that a user may only need to change the default designation(s) for the defined/imported LRS plans so as distinguish the primary LRS plan from the alternate LRS plans. Accordingly, Block 440 or Block 450 may thereby be eliminated in some embodiments of the present invention. At Block 460, a user may select which LRS plans that are and/or are not to be displayed. At Block 470, the LRS plans may be displayed with the resource need(s), the existing resources and/or the geographic information to a user. The operations 440-470 can be referred to by the dashed Block 435 as exemplary operations for generating a resource plan according to various embodiments of the present invention.
• In the drawings and specification, there have been disclosed exemplary embodiments of the invention. Although specific terms are employed, they are used in a generic and descriptive sense only and not for purposes of limitation, the scope of the invention being defined by the following claims.

Claims (21)

1.-20. (canceled)

21. A method comprising:

performing operations as follows on a processor:

importing into a resource planning application that executes on a resource planning system a plurality of location relief strategy plan data sets for installing and retiring apparatus resources in a defined geographic region, wherein one of the location relief strategy plan data sets is defined as a primary location relief strategy plan for installing and retiring apparatus resources in the defined geographic region and one other one of the location relief strategy plan data sets is defined as an alternate location relief strategy plan for installing and retiring apparatus resources in the defined geographic region, and the primary location relief strategy plan and the alternate location relief strategy plans are maintained in a memory of the resource planning system;

generating within the resource planning application a resource plan based on the primary location relief strategy plan and the alternate location relief strategy plan; displaying on a display device a graphical representation of the primary location relief strategy plan overlaid on a geographic map of the defined region without displaying a graphical representation of the alternative location relief strategy plan in response to receiving a first user input and displaying on the display device a combination of a graphical representation of the primary location relief strategy plan and a graphical representation of the alternative location relief strategy plan overlaid on the geographic map of the defined region in response to receiving a different second user input;

prioritizing the location relief strategy plan data sets;

selecting the highest priority location relief strategy plan data set as the primary location relief strategy plan; and

designating the one other of the location relief strategy plan data sets as the alternate location relief strategy plan;

wherein the apparatus resources comprise part of a network infrastructure that is to provide services for multiple entities; and

wherein the importing, the generating, and the displaying operations are performed by a computer processor of the resource planning system; and

wherein the primary location relief strategy plan and the alternate location relief strategy plan each correspond to a plan for installing and retiring cable television lines at a geographic location.

22. The method of claim 21, further comprising:

changing the location relief strategy plan data set that is defined as a primary location relief strategy plan to be defined as an alternate location relief strategy plan; and

changing one of the other location relief strategy plan data sets that is defined as an alternate location relief strategy plan to be defined as a primary location relief strategy plan.

23. The method of claim 21, wherein generating a resource plan based on the primary location relief strategy plan and the alternate location relief strategy plan comprises selectively displaying one of the primary location relief strategy plan Of and the alternate location relief strategy plan based on an input selection from a user.

24. The method of claim 21, further comprising:

importing into the resource planning application a plurality of location relief strategy plan data sets that are associated with a plurality of resource needs, wherein only one of the location relief strategy plan data sets associated with each of the resource needs is defined as the primary location relief strategy plan; and

generating within the resource planning application a resource plan for each of the resource needs based on the associated primary location relief strategy plan and the associated alternate location relief strategy plan.

25. The method of claim 24, wherein a plurality of the location relief strategy plan data sets associated with one of the resource needs are defined as alternate location relief strategy plans.

26. The method of claim 24, wherein generating a resource plan for each of the resource needs comprises generating each of the resource plans based only on user selected ones of the associated location relief strategy plan data sets.

27. The method of claim 24, wherein generating a resource plan for each of the resource needs comprises generating each of the resource plans based only on the associated primary location relief strategy plans.

28. The method of claim 24, wherein generating a resource plan for each of the resource needs comprises generating each of the resource plans based on the associated primary location relief strategy plan and user selected ones of the associated alternate location relief strategy plans.

29. The method of claim 21, further comprising:

toggling back and forth between the displaying of the graphical representation of the primary location relief strategy plan and the displaying the combination of the graphical representation of the primary location relief strategy plan and the alternative location relief strategy plan responsive to alternating first and second user inputs.

30. The method of claim 21, further comprising:

displaying, on the display device as an overlay on the geographic map of the defined region, the graphical representation of the primary location relief strategy plan for installing and retiring apparatus resources for carrying telecommunications in the defined geographic region without displaying a graphical representation of the alternative location relief strategy plan in response to a first user input;

displaying, on the display device as an overlay on the geographic map of the defined region, a combination of a graphical representation of the primary location relief strategy plan for installing and the retiring apparatus resources in the defined geographic region and a graphical representation of the alternative location relief strategy plan for installing and retiring the apparatus resources for carrying telecommunications in the defined geographic region in response to a different second user input; and

toggling back and forth between the displaying of the graphical representation of the primary location relief strategy plan and the displaying the combination of the graphical representation of the primary location relief strategy plan and the alternative location relief strategy plan responsive to alternating first and second user inputs.

31. The method of claim 30, further comprising:

displaying, on the display device as an overlay on the geographic map of the defined region, the graphical representation of the primary location relief strategy plan for installing and retiring a number of fiber optic communication lines and electrical communication lines in the defined geographic region without displaying a graphical representation of the alternative location relief strategy plan in response to a first user input;

displaying, on the display device as an overlay on the geographic map of the defined region, a combination of a graphical representation of the primary location relief strategy plan for installing and retiring the number of fiber optic communication lines and electrical communication lines in the defined geographic region and a graphical representation of the alternative location relief strategy plan for installing and retiring the apparatus resources for carrying telecommunications in the defined geographic region in response to a different second user input; and

toggling back and forth between the displaying of the graphical representation of the primary location relief strategy plan and the displaying the combination of the graphical representation of the primary location relief strategy plan and the alternative location relief strategy plan responsive to alternating first and second user inputs.

32. The method of claim 21, further comprising:

displaying, on the display device as an overlay on the geographic map of the defined region, the graphical representation of the primary location relief strategy plan for installing and retiring a number of gas lines, electrical lines, and water lines in the defined geographic region without displaying a graphical representation of the alternative location relief strategy plan in response to a first user input;

displaying, on the display device as an overlay on the geographic map of the defined region, a combination of a graphical representation of the primary location relief strategy plan for installing the number of gas lines, electrical lines, and water lines in the defined geographic region and a graphical representation of the alternative location relief strategy plan for installing and retiring apparatus resources for carrying telecommunications in the defined geographic region in response to a different second user input; and

toggling back and forth between the displaying of the graphical representation of the primary location relief strategy plan and the displaying the combination of the graphical representation of the primary location relief strategy plan and the alternative location relief strategy plan responsive to alternating first and second user inputs.

33. A system, comprising:

a processor; and

a memory coupled to the processor and comprising computer readable program code embodied in the memory that when executed by the processor causes the processor to perform operations comprising:

importing into a resource planning application that executes on a resource planning system a plurality of location relief strategy plan data sets for installing and retiring apparatus resources in a defined geographic region, wherein one of the location relief strategy plan data sets is defined as a primary location relief strategy plan for installing and retiring apparatus resources in the defined geographic region and one other one of the location relief strategy plan data sets is defined as an alternate location relief strategy plan for installing and retiring apparatus resources in the defined geographic region, and the primary location relief strategy plan and the alternate location relief strategy plans are maintained in a memory of the resource planning system;

generating within the resource planning application a resource plan based on the primary location relief strategy plan and the alternate location relief strategy plan; displaying on a display device a graphical representation of the primary location relief strategy plan overlaid on a geographic map of the defined region without displaying a graphical representation of the alternative location relief strategy plan in response to receiving a first user input and displaying on the display device a combination of a graphical representation of the primary location relief strategy plan and a graphical representation of the alternative location relief strategy plan overlaid on the geographic map of the defined region in response to receiving a different second user input;

prioritizing the location relief strategy plan data sets;

selecting the highest priority location relief strategy plan data set as the primary location relief strategy plan; and

designating the one other of the location relief strategy plan data sets as the alternate location relief strategy plan;

wherein the apparatus resources comprise part of a network infrastructure that is to provide services for multiple entities; and

wherein the importing, the generating, and the displaying operations are performed by a computer processor of the resource planning system; and

wherein the primary location relief strategy plan and the alternate location relief strategy plan each correspond to a plan for installing and retiring cable television lines at a geographic location.

34. The system of claim 33, wherein the operations further comprise:

changing the location relief strategy plan data set that is defined as a primary location relief strategy plan to be defined as an alternate location relief strategy plan; and

changing one of the other location relief strategy plan data sets that is defined as an alternate location relief strategy plan to be defined as a primary location relief strategy plan.

35. The system of claim 33, wherein generating a resource plan based on the primary location relief strategy plan and the alternate location relief strategy plan comprises selectively displaying one of the primary location relief strategy plan Of and the alternate location relief strategy plan based on an input selection from a user.

36. The system of claim 33, wherein the operations further comprise:

importing into the resource planning application a plurality of location relief strategy plan data sets that are associated with a plurality of resource needs, wherein only one of the location relief strategy plan data sets associated with each of the resource needs is defined as the primary location relief strategy plan; and

generating within the resource planning application a resource plan for each of the resource needs based on the associated primary location relief strategy plan and the associated alternate location relief strategy plan.

37. A computer program product, comprising:

a non-transitory computer readable storage medium comprising computer readable program code embodied in the medium that when executed by a processor causes the processor to perform operations comprising:

importing into a resource planning application that executes on a resource planning system a plurality of location relief strategy plan data sets for installing and retiring apparatus resources in a defined geographic region, wherein one of the location relief strategy plan data sets is defined as a primary location relief strategy plan for installing and retiring apparatus resources in the defined geographic region and one other one of the location relief strategy plan data sets is defined as an alternate location relief strategy plan for installing and retiring apparatus resources in the defined geographic region, and the primary location relief strategy plan and the alternate location relief strategy plans are maintained in a memory of the resource planning system;

generating within the resource planning application a resource plan based on the primary location relief strategy plan and the alternate location relief strategy plan; displaying on a display device a graphical representation of the primary location relief strategy plan overlaid on a geographic map of the defined region without displaying a graphical representation of the alternative location relief strategy plan in response to receiving a first user input and displaying on the display device a combination of a graphical representation of the primary location relief strategy plan and a graphical representation of the alternative location relief strategy plan overlaid on the geographic map of the defined region in response to receiving a different second user input;

prioritizing the location relief strategy plan data sets;

selecting the highest priority location relief strategy plan data set as the primary location relief strategy plan; and

designating the one other of the location relief strategy plan data sets as the alternate location relief strategy plan;

wherein the apparatus resources comprise part of a network infrastructure that is to provide services for multiple entities; and

wherein the importing, the generating, and the displaying operations are performed by a computer processor of the resource planning system; and

wherein the primary location relief strategy plan and the alternate location relief strategy plan each correspond to a plan for installing and retiring cable television lines at a geographic location.

38. The computer program product of claim 37, wherein the operations further comprise:

changing the location relief strategy plan data set that is defined as a primary location relief strategy plan to be defined as an alternate location relief strategy plan; and

changing one of the other location relief strategy plan data sets that is defined as an alternate location relief strategy plan to be defined as a primary location relief strategy plan.

39. The computer program product of claim 37, wherein generating a resource plan based on the primary location relief strategy plan and the alternate location relief strategy plan comprises selectively displaying one of the primary location relief strategy plan and the alternate location relief strategy plan based on an input selection from a user.

40. The computer program product of claim 37, wherein the operations further comprise:

importing into the resource planning application a plurality of location relief strategy plan data sets that are associated with a plurality of resource needs, wherein only one of the location relief strategy plan data sets associated with each of the resource needs is defined as the primary location relief strategy plan; and

generating within the resource planning application a resource plan for each of the resource needs based on the associated primary location relief strategy plan and the associated alternate location relief strategy plan.

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