RU95118719A - METHOD FOR MANAGING A SWITCHING UNIT, CONTROLLING DEVICES AND SOFTWARE MODULES FOR THIS, AS WELL AS THE SWITCHING NODE AND THE SWITCHING SYSTEM EQUIPPED WITH A SWITCHING NODE - Google Patents

Claims (14)

1. A method for controlling a switching unit, characterized in that two different control devices (CONTR1, CONTR2) are interoperable to perform switching functions, for which they are interconnected, while the first control device (CONTR1) performs standard switching tasks by means of control programs implemented in real time, and the second control device (CONTR2) performs other switching tasks through control programs implemented in an unrealistic time scale Yeni.  2. The method according to claim 1, characterized in that the control devices (CONTR1, CONTR2) are formed by a plurality of processing units (PU1-PU14) hierarchically divided into two or more control levels (LAYER1-LAYER4), wherein the processing units (PU1- PU14) of different control levels perform various types of tasks.  3. The method according to p. 1, characterized in that the first (CONTR1) and second (CONTR2) control devices are interconnected via a central logical interface (INTER).  4. The method according to claims 2 and 3, characterized in that the control levels (LAYER1, LAYER2) of the first (CONTR1) and control levels (LAYER3-LAYER5) of the second (CONTR2) control devices centralize tasks in the direction of the central logical interface (INTER) and decentralize them away from the central logical interface (INTER).  5. The method according to claim 2, characterized in that the processing units (PU9-PU14) are formed by logical processes performed by a computer.  6. The method according to claim 2, characterized in that the processing units (PU1-PU8) are formed by computing modules (M1-M8).  7. A control device (CONTR2) for a switching unit, characterized in that this control device (CONTR2) is connected to another, different control device (CONTR1), which performs standard switching tasks by means of control programs implemented in real time, with this control device (CONTR2) is designed so that it performs other switching tasks by means of control programs implemented in an unrealistic time scale, and for the implementation of switching functions interact with a further control device (CONTR1) and connected with it.  8. The software module for the switching node, designed to be executed in the control unit (CONTR2) of the switching node and containing a set of control commands, characterized in that the set of control commands has such a structure that it corresponds to control programs implemented in an unrealistic time scale, and execution in the control device (CONTR2) controls the process in the control device (CONTR2) so that the control device (CONTR2) performs other switching tasks and for the implementation of the switching It interacts and is connected with another control device (CONTR1) that differs from it, which, through control programs implemented in real time, performs standard switching tasks.  9. The control device (CONTR1) for the switching node, characterized in that it is connected to another, different control device (CONTR2) that performs switching tasks by means of control programs implemented in an unrealistic time scale, while the control device (CONTR1) is executed so that it performs standard switching tasks through real-time control programs, and interacts with another control device (CONTR2) to perform switching functions and connected with it.  10. The software module for the switching node, designed to be executed in the control device (CONTR1) of the switching node and containing a set of control commands, characterized in that the set of control commands has such a structure that it corresponds to control programs implemented in real time, and at execution in the control device (CONTR1) controls the process in the control device (CONTR1) so that the control device (CONTR1) performs standard switching tasks and for utatsionnyh functions interact and communicate with other, different from his control device (CONTR2), which by means of control programs in non-real-time, executes other switching tasks.  11. A switching node with a communication network and a control system, characterized in that the control system consists of a first (CONTR1) and a different second (CONTR2) control device, the first control device (CONTR1) is configured to perform standard switching tasks by control programs implemented in real time, while the second control device (CONTR2) performs other switching tasks by means of control programs implemented in an unrealistic time scale, and for mmutatsionnyh interacts and functions associated with the first control device (CONTR1).  12. The node according to claim 11, characterized in that the first control device (CONTR1) consists of many computing modules (M1-M8).  13. The node according to claim 11, characterized in that the second control device (CONTR2) consists of a central computer that performs several logical processes.  14. A switching system comprising a plurality of switching nodes equipped respectively with a control system and a communication network, characterized in that the control systems of the switching nodes consist respectively of the first (CONTR1) and second (CONTR2) second control devices, the first control device (CONTR1) performs standard switching tasks by means of control programs implemented in real time, the second control device (CONTR2) performs other switching tasks by means of control x programs implemented in non-real-time, and to carry out switching functions is reacted and linked with the first control device (CONTR1), wherein at least one of the control device (CONTR2) is designed such that it provides superior functions for several switching nodes.