DE19712538C2 - Method for adapting terminal-specific operating data in a communication system - Google Patents

Description

The present invention relates to a method for adaptation solution of terminal-specific operating data in a communication system, especially in a telephone substation. In particular, the present concerns Invention a method according to the preamble of claim 1 for the adaptation of terminal-specific operating data that of a main processor device and at least one Peripheral processor device of a communication system.

Communication systems are generally used to connect Telephone terminals with each other and to connect them Devices with communication networks, especially public ones Nets.

A communication system basically consists of several ver averaging functional units and a program mable data processing device that mediates Controls technical functional units and all med technical processes monitored. From DE-OS-38 04 819 is known a communication system, which is a central Control device, d. H. a central main processor tion, as well as several to relieve the main processor serving peripheral assemblies, d. H. Peripheral Processor devices. The main processor as well are the individual peripheral processor devices independent program-controlled processing facilities, which in particular via a (serial) data transmission point are interconnected. For the coordination of quasi individual tasks that need to be performed and completed at the same time the processor device is a (multitasking) operation system, for example the COSMOS operating system  (Communication Oriented Small Modulas Operating System) seen.

The main task of the operating system is to Dependency on communication information from the Devices to the communication system or from the communica cation system are transmitted to the end devices, one System processor of the main processor or peripheral processes different program module priorities assign controlled for execution. These to be transferred Communication information can be incentives, for example formations, in particular from those to the communica tion system connected devices in the context of a connection signaling generated and sent to the communication system be transmitted.

Fig. 4 shows the principle known from DE-A1-44 17 777 len structure of a communication system. The communication system 1 has a main processor device 2 and a plurality of peripheral processor devices 3 a, 3 b, of which only two peripheral processor devices are shown in FIG. 4. Each of these peripheral processor devices 3 a, 3 b can be arranged on a printed circuit board and comprises transmission units 12 a, 12 b or 12 c, 12 d, to which several telephone terminals 13 a to 13 d are connected. The peripheral processor devices 3 a, 3 b each have a system processor 9 a, 9 b and a system memory 10 a, 10 b assigned to the system processor, which is provided for storing programs and data. Each peripheral processor device 3 a, 3 b is controlled by a peripheral controller 11 a or 11 b, which in particular control the transmission of information between the terminals and the peripheral processor devices on the one hand and the peripheral processor devices and the main processor device on the other hand. Via the peripheral controls 11 a and 11 b, communication information is processed by the system processors 9 a and 9 b via a corresponding transmission unit 8 a and 8 b and via a data transmission path 7 a and 7 b to corresponding receiving units 6 a or 6 b of the main processor device 2 transmitted. The transmission over the data transmission path 7 a, 7 b takes place in particular in the form of a serial data transmission in the so-called HDLC format (High Level Data Link Control).

The main processing device 2 also has a system processor and the system processor 4 4 associated system memory 5 via the data transfer path 7 a, 7 b processes the transmitted information.

The peripheral processor devices 3 a and 3 b are used primarily for processing communication information relating to the decentralized switching technology, ie in the case of incentive information which proves a connected terminal device with regard to its keyboard or its display, such as the volume setting or the system registration of one Terminal. Central communication information, in particular central incentive information, who transmits it to the central main processor device 2 and processes it there from a central switching technology.

For the central or decentralized switching technology of the main processor device 2 or the peripheral processor devices 3 a, 3 b, terminal-specific operating data are required which relate, for example, to the subscriber authorization, the subscriber name, the subscriber number, etc. of a subscriber connection or terminal. Furthermore, these terminal-specific operating data can include the time, the date, the day of the week, the hands-free characteristic, the display contrast, the call volume, the volume for a hands-free device, the volume of a mobile handset, the pitch of the call sign of a specific terminal, etc. To manage these terminal-specific operating data in the main processor means 2 on the one hand and the peripheral processor device 3 a, 3 on the other b processes provided hand, separate data management modules and data management, wherein the central Datenverwaltungspro process of the main processing device 2 to a full operational database accesses available in all or possible operating data are stored. The decentralized data management process of the peripheral processor device 3 a, 3 b, on the other hand, manages only a decentralized operating database, which generally only represents a subset of the central operating database.

The separate design of a central company database and a decentralized operational database thus requires that in the event of a change in the decentralized operating data requirements against a peripheral processor device adjustments of central main processor device can be made need so that the central processing unit the new operating data requirements of the peripheral process sor device can meet. This has been a problem so far solved in that in the event of changed operating data requirements against a decentralized peripheral processor device Adaptation of the main processor device by replacement all central program modules of the main processor direction, d. H. for example by exchanging the central one System processor of the main processor device was achieved. This procedure for adapting the main processor device to changed operating data requirements of a peripheral However, processor setup is very complex.

Furthermore, is from the German published application DE 44 14 597 A1 describes a method for loading programs into pe peripheral modules of a program-controlled communication Switching system known in the case of a peripheral construction group required operating data in one of the peripheral buildings group individually assigned storage area of a building group memory in a central control of the communica tion switching system can be saved. Become operational  Data changed, in addition to the changed operation data generates and transmits change information are, this change information that peripheral Designated module for which the changed operating data are determined.

The present invention is therefore based on the object a method for adapting terminal-specific Operating data sets of a main processor device and at least one peripheral processor device of a commu nication system in which the main processor Direction in a simple way to changed operating data peripheral processor device requirements can be fitted and it is ensured that the  Operating data of the main processor device or Peripheral processor device always adapted to each other are.

According to the invention, this object is achieved by a method Claim 1 solved.

According to the invention, information is saved that is ben what operating data of the main processor device of the peripheral processor device are required. By constant monitoring of the main pro processor device can change this operating Da inventory are determined whether the changed Operating data of the main processor device from the periphery rie processor device are required, so that subsequently the changed operating data to the peripheral processor direction can be transferred if one corresponds beforehand appropriate arrangement of the changed operating data of the main pro processor device by the peripheral processor device has been determined.

Are several peripheral processor devices with the main Processor device connected, information is also stored, which specify which operating data of the company data of the main processor device from which Peri pherie processor device are required. Thus through Check this information after changing operational data operating system inventory of the main processor device determine which peripheral processor device the changed operating data of the main processor device needed so that an appropriate update, i. H. on Update of the operating data inventory of the corresponding peripheral rie processor device is possible.

The information described above will in particular when starting up, d. H. after commissioning the Periphery-Pro processor devices created and saved, while during  every peripheral processor device corresponds to the startup appropriate data of the main processor's operational data direction requests, whereby the peripheral processor direction regarding the requested operating data of your central operating data inventory the requesting peripheral Processor device notices.

This way you can change the decentralized Operational data requirements during startup Peripheral processor device of the main processor device be informed that the corresponding peripheral process other or additional operating data of the zen central operating data inventory of the main processor device requests without the main processor device or its System processor or their central operating database must be changed, in addition, if the central Operational data stock a constant update of the dezen central operating data of the peripheral processor device is guaranteed by the main processor device.

Furthermore, it is ensured that the Processor stored operating data always one Subset of the central operating data inventory of the main pro represent processor device.

The invention is described below with reference to the Drawing based on a preferred embodiment described.

Fig. 1 shows a data flow diagram for explaining the tenflusses Da, between a peripheral processor device and a main processing device according to the method of the invention lying in front of

Fig. 2 shows the operation of the request and the loading of operational data of the main central processor means by a decentralized peripheral processor means,

FIG. 3 shows the structure of a request table, with the aid of which the main processor device shown in FIG. 1 achieves an update of the decentralized operating data inventory of several peripheral processor devices, and

Fig. 4 shows a block diagram with the essential components of a communication system, in particular a telephone exchange.

Fig. 1 shows the basic flow of data between one of the shown in Fig. 4 peripheral processor means 3 a and the main processor means 2 shown with Fig. 4.

The main processor device 2 and the peripheral processor device 3 a each have a user interface 17 or 14 , via which users can intervene externally in the system. Furthermore, data management modules 18 and 15 are provided, which are designed in particular as program modules in the corresponding system processors 4 and 9 a (cf. FIG. 4). The main processor device 2 comprises a central database 19 for storing terminal-specific operating data, the central database 19 comprising all available operating data and thus representing a complete terminal operating data memory. The decentralized database 16 of the peripheral processor device 3 a comprises only a subset of the operating data stored in the central database 19 of the main processor device 2 . While the central database 19 of the main processor device 2 is battery-buffered and is thus retained even after the communication system or the telephone branch exchange has been switched off, the decentralized database 16 of the peripheral processor device 3 a is formed by a RAM, so that the decentralized operating data of the decentralized database 16 after turning off or shutting down the communica tion system or of the peripheral processor device 3 a ver go lost and therefore with power-on or rebooting of the communication system or the peripheral device must be Prozessorein 3 a constantly renewed. This is done as follows:

After switching on or starting up the peripheral processor device 3 a, it logs on via the HDLC data transmission link 7 a (see FIG. 4) to the data management process 18 of the main processor device 2 . Since the decentralized database 16 of the peripheral processor device 3 a is initially empty, the peripheral processor device 3 a then requests from the main processor device 2 those terminal-specific operating data of the operating data inventory of the main processor device 2 stored in the central database 19 , which the peripheral processor device 2 3 a needed for their further operation. This terminal-specific operating data requested by the peripheral processor device 3 a can, for example, the subscriber authorization, the subscriber name, the subscriber number, the time, the date, the day of the week, the hands-free characteristic, the display contrast, the call volume, the hands-free volume, the Volume of a mobile handheld device, the ringing tone etc. of a peripheral device connected to the peripheral processor device 3 a concern subscriber or terminal.

In the central database 19 of the main processor device 2 , the entire operating data are divided into data areas, that is, they are stored separately according to data segments. When starting up the peripheral processor device 3 a, the operating data required by the peripheral processor device 3 a are therefore requested by requesting one or more data segments of the central database 19 of the main processor device 2 . In this case, the peripheral processor device 3 a only sends a new request when the previous request has been answered by the main processor device 2 . This process is shown schematically in FIG. 2.

Upon receipt of a request from the peripheral processor device 3 a for downloading, ie downloading a specific data segment of the central operating database of the database 19 , the data management 18 of the main processor device 2 remembers the data requested by the peripheral processor device 3 a and creates request information I, which are stored in RAM in particular in the form of a request table shown in FIG. 3.

As shown in Fig. 3, this request table of the data management 18 of the main processor device 2 comprises a listing of the individual data segments of the central operating data inventory of the main processor device 2 , each of which is listed with a start and end address. The order of this table is fixed and also the peripheral processor device 3 a or its data management 15 is known. An additional request bit field is created behind each end address of a data segment, which, for example, comprises one byte. In this Anforderungsbitfeld the data management 18 is marked by the main processing device 2, whether the specified by the appropriate start and end address data segment has been requested of the central operating dataset of one of the available and attached to the main processing device 2 closed peripheral processor devices. If the request bit field comprises 1 byte, then by setting a corresponding flag in this request bit field, a distinction can be made between eight different peripheral processor devices.

Since the request table shown in FIG. 3 is stored in the main processor device 2 in a RAM, each peripheral processor device, as has already been described, only transfers parts of its total requests, the next request being only sent when the previous one Request from the main processor device 2 has been answered. This division of the requirements also results in a division of the requirements table, so that the RAM area required on the main processor side can be reduced. In addition, the data traffic between the Hauptprozessorein can directionally in this way 2 and the peripheral processor means 3 a simp cher processor means peripheral 3 are a kontrol profiled by since the peripheral processor means 3 a the next request only submits, when the Main processor device 2 has received exactly the number of requested data segments.

From the foregoing description it is apparent that all by-up peripheral processor means which are connected to the main processing device 2, the 2 formed request table Anforde shown in Fig. 3, and processor means by the data management 18 of the main insurance information I comprises the attached for each data segment ben which of the connected peripheral processor devices have requested the corresponding data segment and need them for their operation. During further operation, the data management 18 of the main processor device 2 monitors the terminal-specific operating data stored in the central database 19 . Upon detection of a change in a corresponding data segment of this operating data stored in the database 19 , the data management 18 accesses the request table shown in FIG. 3 and can recognize, on the basis of the request bit field associated with the corresponding changed data segment, which of the connected peripheral processor devices this data segment originally requested. The data management 18 of the main processor device 2 thus uses the request table shown in FIG. 3 to determine the peripheral processor devices affected by a change in a specific data segment and then causes the transmission of the changed data segment to the peripheral processor devices affected, so that a constant updating or an update of the decentralized operating data stored in the individual peripheral processor devices is guaranteed.

1 as can be seen from Fig. , Only the data management modules 18 and 15 write access to the databases 19 and 16 respectively. The users can only have direct read access to the database 19 or 16 via the user interfaces 17 or 14 . However, if the decentralized database 16 is to be changed via the user interface 14 of the peripheral processor device 3 a, the central data management 18 is first informed via the data transmission link 7 a. The central data management 18 of the main processor device 2 accordingly causes a change in its central operating database. After changing the central database 19 in accordance with the data change given by the user interface 14 , the data management 18 of the main processor device 2 also causes the decentralized database 16 of the corresponding peripheral processor device 3 a in accordance with the central database 19 is changed, for example by the changed in the central database 19 data segments of a device via the data transmission path 7 peripheral Prozessorein 3 are fed a. The central database 19 of the main processor device 2 is thus defined as a master, since only the central database 19 stores the complete terminal-specific operating data. The decentralized data bank 16 of the peripheral processor device 3 a, on the other hand, is designed as a slave, so that when the data changes, the master, ie the central database 19 , is always changed first. On the basis of the request table set up by the data management 18 of the main processor device 2 (cf. FIG. 3), the data management 18 determines the peripheral processor devices affected by the change in the central database 19 and initiates this by transferring the changed data segments to the corresponding peripheral devices. Processor devices adjust the decentralized databases of these peripheral processor devices accordingly. This process ensures that the decentralized databases of the individual peripheral processor devices are only ever changed from one location, namely the main processor device 2 . In this way it can be ensured that the decentralized databases of the individual peripheral processor devices always correspond to a subset of the central database 19 of the main processor device 2 .

The reference to the embodiment shown in Fig. 1 Prozessorein peripheral device 3 a procedure described meets selbstver course also on the further processing of the Hauptprozessoreinrich 2 connected peripheral processor devices and their decentralized databases.

Claims (10)

1. A method for adapting terminal-specific operational data sets (16, 19) of a Hauptprozessoreinrich device (2) and at least one peripheral processor means (3 a, 3 b) of a communication system (1), wherein the terminal device tespezifischen operating data for terminal-specific operation of the at least a peripheral processor device ( 3 a, 3 b) connected terminals ( 13 a - 13 d) serve, characterized by the steps

• a) storing information (I),
  • 1. which are individually assigned to data segments on which the operating data of the operating data stock is divided,
  • 2. and which indicate which operating data of the operating data inventory ( 19 ) of the main processor device ( 2 ) are required by the peripheral processor device ( 3 a),
• b) determining on the basis of the stored information (I) when the operating data inventory ( 19 ) of the main processor device ( 2 ) changes, whether the peripheral processor device ( 3 a) requires the changed operating data, and
• c) transfer of the changed operating data required by the peripheral processor device ( 3 a) into the operating data inventory ( 16 ) of the peripheral processor device ( 3 a).

2. The method according to claim 1, wherein the communication system ( 1 ) comprises at least two with the main processor device ( 2 ) via a data transmission path ( 7 a, 7 b) connected peripheral processor devices ( 3 a, 3 b), characterized in that
that in step a) information is also stored which indicates which operating data of the operating data inventory ( 19 ) of the main processor device ( 2 ) are required by which peripheral processor device ( 3 a, 3 b),
that it is determined in step b) on the basis of the stored information whether the changed operating data of the operating data stock ( 19 ) of the main processor device ( 2 ) are required by at least one of the peripheral processor devices ( 3 a) and
that in step c) the changed operating data of the operating data stock ( 19 ) of the main processor device ( 2 ) with reference to the information stored in step a) in the operating data stock ( 16 ) of those peripheral processor device ( 3 a) which are transmitted in the Step b) has been determined as a peripheral processor device requiring the changed operating data. 3. The method according to claim 1 or 2, characterized in that in step a) the information (I) during an initialization phase of the at least one peripheral processors device ( 3 a, 3 b) are generated and stored. 4. The method according to claim 3, characterized in that the at least one peripheral processor device ( 3 a, 3 b) during the initialization phase the operating data required by the main processor device ( 2 ), the main processor device ( 2 ) requesting the th Operational data of their operational data stock ( 19 ) in the operational data stock ( 16 ) of the requesting peripheral processor processor transmits. 5. The method according to any one of the preceding claims, characterized in that the at least one peripheral processor device ( 3 a, 3 b) during its initialization phase requests the operating data required by it according to data segments separately from the main processor device ( 2 ) and the main processor device (2) the requested operating data of its operation dataset (19) separated by data segments in the be operating data was (16) of the requesting peripheral transmits processor means, said peripheral Prozes soreinrichtung (3 a, 3 b) a new data segment only after requesting, when a previously requested data segment has been transmitted by the main processor device ( 2 ). 6. The method according to claim 5, characterized in
that in step a) the information (I) for each data segment of the operating database ( 19 ) of the main processor device ( 2 ) is generated and stored separately,
that in the step b) a change of each data segment of the operating data store (19) the main processor means (2) monitors and the affected peripheral processor devices are determined by a modified data segment of the operating data store (19) the main processor means (2), and
that in step c) the changed operating data of the main processor device ( 2 ) are transmitted separately to data segments to the respective peripheral processor devices ( 3 a, 3 b). 7. The method according to any one of the preceding claims, characterized in that the operation data base (19) of Hauptprozessoreinrich device (2) all available operating data and the OPERATING tenbestand (16) of the at least one peripheral Prozessorein device comprises (3 a) only decentralized operating data. 8. The method according to claim 7, characterized in that before a change in the operating data ( 16 ) of the at least one peripheral processor device ( 3 a), the corresponding operating data of the operating data ( 19 ) of the main processor device ( 2 ) are changed and then using the b by the step a) stored information (I) by means of the steps), and c) the operation data file (2) operating data concerned (16) of the peripheral processor means (3 a is matched) to that of the change of the operating data store (19) the main processor means . 9. The method according to any one of the preceding claims, characterized, that in step a) the information (I) in the form of a Bit field can be saved. 10. The method according to claims 2 and 9, characterized in that each to the main processor device ( 2 ) connected NEN peripheral processor device ( 3 a, 3 b) is assigned a bit within half of the bit field.