DE4041442C1 - Method of localising communication end devices - after each activation of end devices, stored position information is called up with call up procedure via serial data interface - Google Patents

Abstract

A method of localising communication and devices (DTE) connected via a connector (NAE) to a local network. Individual connection position information (Pi) is stored in each connector (NAE). After each activation of the end devices (DTC) the stored position information (Pi) is called up with a call up procedure (ISSP) via a serial data interface (ISS). The called up information (Pi) is transmitted together with end device indentification information (Qi), using a communication inherent transmission procedure, to network management means (NME) which administers and monitors the network. USE/ADVANTAGE - Enables local allocation of end devices to the network connectors without a change of direction needing to be registered by the user at the network management centre.

Description

In local communication networks, e.g. B. in ring or bus networks, network connection devices are provided to which one or more rere communication terminals can be connected.

Local communication cation networks are predominantly based on the international ANSI / IEEE Standard 802.3 to 802.5 (Carrier Sense Multiple Access with Collision Detection CSMA / CD, Token Ring Access Method) reali siert. With the help of the network connection devices at CSMA / CD- Communication networks, the media connection facilities (medium Access Units, see 802.3, Chapter 8) and for ring networks the Ring coupling devices (trunk coupling units, see 802.4, Ka chapters 12 and 13 and 802.5, chapter 7) are those in the commu nikationsendgeräte formed information or messages via the transmission media (see 802.3, chapters 8.4, 8.5, 802.4, chapters 1.7 and 10, 802.5, chapter 7), e.g. B. copper lead cables, coaxial cables and light guides. The commun Cation terminals can usually at any place le of the local communication network, d. H. to any one Network connection device of the communication network, connected will be. Every communication terminal is with one Terminal address (see 802.3, chapter 5, 802.4, chapter 3.2, 802.5, Chapter 3.3) or device identification information provided for the mediation control of the In Formations or messages from the respective communication terminal on a monitoring and ver the communication networks prevailing network management facility is transmitted, however no local assignment can be derived from it. H. local assignment of the communication terminal to the affected network connection direction to be derived. A communication system with the like properties is from the European patent application 03 81 386 known.

One possible assignment is at a central point, i.e. H. in a central management center to keep a list in  which assigns the communication terminals to the network locking facilities and their location is noted. In this method, everyone is from the communication terminals Network connection device change and thus every change of location to report to the central network management center. The reporting can here in writing or via other public communication networks or via the respective local communication network appropriate operations of the communication terminal the participant.

The object underlying the invention is in a centrally located network management center of a local Communication network a local assignment of the communication to produce terminals to the network connection devices without that by the participant a change of location or a network connection changes of facility are reported to the network management center got to. The object is solved by the features of claim 1.

The essential aspect of the method according to the invention can be seen in that in each network connection device a connection device-specific position information is stored which indirectly or directly indicates the location of the respective network connection device in the local communication network. The position information is either by a local position information, for. B. building or room number, or by a logical position information, for. B. Network connection device No. 7, from which the geographical location of the Netzanschlußeinrich device can be derived, formed - claims 2 and 3. With each activation of a communication terminal (z. B. with each start-up) are saved by this in the network connection facilities Position information is queried using a query procedure via a serial data interface. The queried position information is then transmitted to a network management device which manages and monitors the communication network resources, together with terminal identification information provided in the communication terminal, with the aid of a communication procedure inherent in the communication network. For this purpose, it is particularly advantageous to provide an I ² C bus interface including the associated I ² C bus interface procedure as the data interface - claim 4. With the I ² C bus interface - furthermore with I ² C interface or I ² C interface procedure - it is a two-wire interface, via which information is transmitted or controlled bidirectionally. The I ² C interface is described in detail in the publication ELEKTRONIK 1982, number 23, pages 82 to 84. Commercially available integrated circuits are already available for the control and the physical implementation of the I ² C interface. The memory device is also integrated in one of these integrated circuits for controlling the I ² C interface, as a result of which the I ² C interface including the I ² C interface procedure and the memory device can be implemented by a single integrated circuit. Such an integrated circuit is, for example, the PCB 8582 from Philips - claims 5 and 6.

In the communication terminal, the I ² C interface is controlled by a program provided in the central control device. The two logical I ² C interface connections arranged on the central control device are made to the I ² C interface of the communication terminal via the physical adaptation of line driver devices guided. This I ² C interface is connected to the I ² C interface of the respective network connection device when the communication terminal is connected to the local communication network. Claim 5. The main advantage of the method according to the invention is that each time a communication terminal is activated, is required with each change of location or change of the network connection device - automatically queried by this the position information from the storage device and this together with an associated with the communication terminal device identification information - z. B. the station address - is transmitted to a network management device. As a result, an assignment of the communication terminals to the network connection devices and thus the local position of the communication terminals can be carried out and documented in the network management device. This assignment of the communication terminals and the network connection devices is absolutely necessary for the control, operation and monitoring of a local network.

In the following the invention is based on two block diagrams and a flowchart explained in more detail. It shows

Fig. 1 is a block diagram of a local area communication network;

Fig. 2 is a block diagram of a network connection device and a communication terminal connected to it

Fig. 3 is a flow chart of the part of the inventive method implemented in the central control of the communication terminal.

Fig. 1 shows a local communication network, which is formed by a transmission medium M, by several network connection devices NAE, network termination devices NA, several communication terminals DTE and a network management device NME. The local communication network is a bus network, the physical and procedural properties of which, for example, correspond to the ANSI / IEE standard 802.3. The transmission medium M is realized, for example, by a coaxial line. In this transmission medium M several network connection devices are inserted NAE. The ends of the local communication network are provided with the transmission medium M in accordance with impedance from closing network terminations NA. A network management facility NME is connected to one of the network connection facilities NAE. With the help of this network management facility NME, the local network is managed, operated and monitored. A communication terminal DTE is connected to the remaining network connection devices NAE via a connecting line VL.

Fig. 2 shows a transmission medium M, to which a network connection device NAE is connected. The network connection device NAE is selective - z. B. via plug or clamping devices - connected to the transmission medium M via the stub SL. The stub line SL is guided in the network connection device NAE to a network access device NZE. In this network access device NZE, access to the local communication network is controlled according to the ANSI / IEEE standard 802.3. The network access device NZE is also connected to a communication interface KS. This communication interface KS is connected to a similarly implemented communication interface KS of a communication terminal DTE. The communication interfaces KS have physical and procedural properties in accordance with the ANSI / IEEE standard 802.3. The communication interface KS of the communication terminal DTE is connected to a communication device KE provided in this. This communication device KE is controlled and monitored by a central control device ZST arranged in the communication terminal DTE. With the help of the communication device KE and the central control device ZSE, the communication or information flow from and to the local communication network is controlled and monitored.

In the network connection device NAE there is furthermore a storage device SPE which is connected to an I ² C interface control device ISE. The output of this I ² C interface control device ISE has the physical procedural properties of the I ² C interface and therefore represents the I ² C interface ISS of the network connection device NAE. The storage device SPE and the I ² C interface control device ISE can be implemented by an integrated circuit PCB 8582 from Philips. This integrated circuit contains an electrically erasable memory SPE and in each case a controller for the I ² C interface ISS and for writing or reading information into or from the memory. In addition, this integrated circuit has three address setting inputs, with the help of which the I ² C interface can be assigned an address. This address must be specified when the integrated circuit is activated in order to activate its function.

The I ² C interface ISS is formed by a clock line SCL and a data line SDA. Clock signals are transmitted via the clock line SCL in the sense of sampling the data to be transmitted. The maximum permissible clock signal frequency for this integrated circuit is 100 kHz.

The I ² C interface ISS of the network connection device NAE is connected via corresponding lines to a similarly implemented I ² C interface ISS of the communication terminal DTE. This I ² C interface ISS is routed via bidirectional line driver devices LTE to two connections or ports of the central control device ZST. With the help of the line driver device LTE, the physical or electrical properties of the connections of the central control device ZST are adapted to the physical or electrical conditions of the I ² C interface ISS. The line driver devices LTE are implemented, for example, by integrated circuits 74LS240 of the Low Power Schottky standard circuits from Texas Instruments. For example, the SAB 80286 microprocessor system from Siemens is provided as the central control device ZSE. The two connections of the central control device ZST form the logical I ² C interface ISS '. This logical I ² C interface ISS 'corresponds in terms of its procedural properties to the I ² C interface ISS of the communication terminal DTE. The I ² C interface procedure assigned to the I ² C interface is controlled by an interface program SSP implemented in the central control device ZST.

Fig. 3 shows a self-explanatory flow chart of this interface program SSP. With the help of the interface program SSP, the position information pi stored in the storage device SPE is queried and, together with a terminal identification information ei, z. B. the station address, transmitted to the network management device NME. With the help of these two pieces of information pi, ei, the assignment of communication terminal DTE to network connection device NAE can be determined in the network management device NME and the respective communication terminals DTE can thereby be localized. The interface program SSP is initialized each time a communication terminal DTE is activated. Activation of a communication terminal DTE represents, for example, commissioning by switching on the power supply of the communication terminal DTE. Activating a communication terminal DTE can also represent, for example, the connection of the communication terminal DTE to the network connection device NAE. Here, the interface program SSP is initialized after connecting the communication terminal DTE to a communication socket of the network connection device NAE.

Claims (6)

1. Method for localizing communication terminals (DTE), each of which is connected to a local communication network via a network connection device (NAE),

• - In which in each of the network connection devices (NAE) position information (pi) that is specific to the connection device is stored,
• - In which, after each activation of the communication terminal (DTE), the position information (pi) stored in the connected network connection device (NAE) is queried using a query procedure (ISSP) via a serial data interface (ISS) and
• - In which the queried position information (pi) is transmitted together with a terminal identification information (ei) provided in the communication terminal (DTE) with the aid of a communication procedure inherent in communication to a network management device (NME) that manages and monitors the communication network resources.

2. The method according to claim 1, characterized, that the position information (pi) by a geographical Positionin of the position of the mains connection device (NAE) formation (pi) is formed. 3. The method according to at least one of the preceding claims, characterized, that the position information (pi) by one of the local Communication network structure dependent and the logical position position information indicating the network connection device (NAE) tion (pi) is formed. 4. The method according to at least one of the preceding claims, characterized in that the query procedure (ISSP) is implemented by the I ² C bus interface procedure (ISSP). 5. Arrangement for performing the method according to claim 1, characterized in that in each of the network connection devices (NAE) a position information (pi) storage device (SPI) and a position information transmission controlling I ² C interface control device (ISE) is arranged, that realized by the I ² C interface controller (ISE) I ² C interface (ISS) of the network connection device (NAE) having an I ² C interface (ISS) is connected to a communication terminal (DTE), and that said I ² C Interface (ISS) is connected via a bidirectionally acting line driver device (LTE) to the connections of a central control device (ZST) of the communication terminal (DTE) which implement the logical I ² C interface (ISS ′), the I ² C interface procedure ( ISSP) is controlled by the program-controlled central control device (ZST). 6. Arrangement according to claim 5, characterized in that the memory device (SPE) is realized together with the I ² C interface control device (ISE) in an integrated circuit (PCB 8582).