DE3400303C1 - Method for monitoring the occupancy of devices involved in path connections (release on incorrect occupancy) - Google Patents

Abstract

The invention relates to a method for monitoring occupancy of devices involved in path connections for the purpose of releasing devices in telecommunications systems, in particular in PCM telephone PBX systems, which are incorrectly marked as occupied, with functional units which exchange switching information via switching paths in order to set up the connections and thereby act on the device (peripheral units and paths, as well as a central control device), separate data memories being assigned to all devices into which occupancy data determining the respective path connections can be recorded. Each data memory (GDS, WDS, VDS) in each case has a status bit marking occupied and free status as well as a first and second monitoring bit which can be controlled by a check routine, the status bit and the two monitoring bits being controlled by the check routine in such a way that the correct occupancy status of the devices can be checked according to their value in conjunction with the consistency check stage (KPS). Methods of this type for monitoring the correct occupancy of devices are used in PCM telephone PBX systems. <IMAGE>

Description

If the connection control information is missing, for example when the connection path is triggered, the peripheral devices incorrectly not been triggered with. This state is recognized as an error and possibly one Monitoring device communicated. In addition, the associated occupancy information deleted and the corresponding peripheral facilities activated. The use conditional such connection data memory for the various devices Considerable storage space requirements, especially for large private branch exchanges and because of the functional interconnection with one another, a not inconsiderable one Control effort for Execution of such test routines.

Furthermore, from DE-AS 29 30 820 an indirectly controlled switching system known to be assigned a memory for testing purposes within the central control unit is where the routine testing of coupling points, sentences, terminals and Connection data relating to switching stations are stored. The storage the data takes place in the event of a test connection not being established If all relevant data is available, the test routine goes to the next test step to shift further. Monitoring aimed at the respective operating status of the institutions to be examined does not take place.

The object on which the invention is based is the monitoring the facilities of the telephone systems defined at the outset with regard to the To reduce memory requirements and at the same time the test routine with less dynamic Loading of the central control devices of these telephone systems take place without compromising the operational safety of this telephone system to have to accept.

According to the invention, this is achieved through the combination of features 1.1 reached by 1.5.

The presence of a single connection data memory is essential to the invention for the monitoring of all facilities, with only one status bit for the marking of the free and occupied status and two more, through the check routine controllable control bits are provided. The test routine becomes periodic recurring test cycles are formed, which the respective responsible control bits one after the other set. Provided that the facilities and thus the corresponding memory have the Time will remain occupied by two successive similar test cycles The consistency check step becomes effective with the check cycle of the connection data memory, with the through-connected path connection the actual state of the peripheral Devices and routes are determined. Is there a road connection and are the peripheral ones Devices marked as occupied, so the connection is consistent, so it will be second control bit cleared to enable the subsequent data memory-specific test cycle to be able to be set again. Finally, are the status bit and both control bits If the memory is deleted, the connection is inconsistent and there is none Correction of the memory content and no error message.

On the other hand, those marked as occupied in the connection data memory are peripheral devices free, the contents of the connection data memory deleted and at the same time an error message to a corresponding one in a known manner Transfer monitoring device.

Another error condition arises if during the test phase, for example the test cycle g / w, the status bit and both control bits are set are.

In this case, too, the corresponding memory content is deleted and the corresponding facility is marked as re-assignable and, if applicable, an error message issued.

According to an advantageous embodiment of the invention it is provided the time between two successive test cycles of the same type as a multiple to provide an average occupancy time of the route connection and the various Test cycles to each other in any time sequence and with low priority within of the running program. This ensures in a simple manner that the dynamic load on the central control devices is very low, so that even larger telephone systems with many different facilities can be monitored according to this procedure without impairing their performance can.

The invention is shown in a figuratively illustrated embodiment explained, the F i g. 1 the functional interconnection of the various stores can be seen and FIG. 2 shows the sequence of the method according to the application, in particular represents the timing of the individual test cycles.

In FIG. 1 is the connection data memory VDS of a telecommunications system, in particular a PCM private branch exchange, shown, whose route data memory WDS and device data memory GDS send their data information to the connection data memory Send VDS. The route data memory WDS contains all data information about Route connections that can be switched through the route network. With this data information becomes the creation of a route connection through the route network stored by the route data memory WDS in the connection data memory VDS. In a similar way The data information from the device data memory GDS is also stored in the connection data memory VDS of such telephone systems registered. Usually in the telecommunication systems A separate device data memory GDS is available for the devices of the same type so that, under certain circumstances, several device data memories GDS can store their data information can be transferred to the connection data memory VDS.

In FIG. 2 is the method of monitoring according to the invention the occupancy of facilities involved in road connections in a pictorial manner shown, with the occupancy status BL and the triggering statuses over time t AL are marked by appropriate arrows. Furthermore, on the time axis t the test cycles vds, gl, belonging to the entire test routine are plotted, which are used in their periodic repetition provided with corresponding line number markings are. In the exemplary embodiment, there are three different route occupied states VB1, VB2 and VB3, the duration of the first route connection occupancy VB 1 is less than a test cycle time during the second and third route connection occupancy time VB2, VB3 should be greater than the test cycle time. The third route connection assignment VB 3 represents a special case in which the occupancy BL between the test cycles vds, g / w lies. Basically it applies that before the route connection occupation BL in the connection data memory VDS and the respective status and control bits in the device and route data memory GDS / WDS deleted and have the value zero. When the BL of the respective memory is occupied the respective status bit is set so that the first bits of the respective Memory take on the value 1. The respective control bits are retained in the data memory VDS, GDS / WDS have their value zero. Then the individual Test cycle vds the first control bit of the connection data memory VDS is set and takes the value 1. The following data memory-specific test cycles glw effect the setting of the respective first control bit of the corresponding one in the same way Data memory GDS / WDS. With the AL release of the first route connection occupancy VB 1, which lies within a test cycle vds, vds' or g / w, or etc., become all status and control bits of the data memory VDS, GDS / WDS deleted so that then in the data memories VDS, GDS / WDS all facilities again with their Free status are marked.

The second route connection assignment VB 2 is set at the same time BL a, whereby in the same way, as described above, in the data memories VDS, GDS / WDS, each of the first bits taking on the value (vertical reading 100 bits in the sequence status, 1 2nd control bit). Then with the following Test cycles vds, I the memory contents of the data memory VDS, GDS / WDS in the value 110 changed (vertical reading type 110, Fig. 2> with the first repeating The memory content of the connection data memory VDS of 110 becomes the test cycle vds' changed to the value 111 (vertical reading type) and at the same time the consistency check step KPS carried out. With this test, the existing road connections the occupancy status of the peripheral devices and routes checked and with the correct Occupied state prepares the second control bit in each case for deletion With the following test cycle g / w, GDS or WDS, the second control bit is set to zero (110 vertical reading mode), so that after this test cycle 8 / w the information in the respective data memory GDS / WDS takes the value 111; because the second control bit must be able to be set again. The consistency check step KPS is repeated with each further check cycle vds "ff repeated so that the respective second control bits in the corresponding data memories GDS or WDS must be set to zero again in the corresponding test cycles g / wM can. When AL this route connection VB2 is triggered, all The memory control bits are deleted and the devices and routes are enabled again.

The third route connection VB3 offers a special case in that the occupancy is between the test cycle vds and g / w. When this route connection is occupied VB 3 are the respective status bits of the data memory as described above VDS, GDS / WDS set and with each subsequent test cycle g /, additionally the first The control bit of the corresponding data memory is set to the value 1. The following Test cycles vds' and g / affect the corresponding first and second, respectively Control bits of the corresponding data memory VDS, GDS / WDS, so that with the following Check cycle vds "the consistency check step KPS takes place again in a known manner the triggering AL of this route connection occupancy VB3 are then as with the previous ones Route connection assignments VBI, VB2 the contents of the respective data memory VDS, GDS / WDS is set from the value 1 to the value zero, and with it the peripheral devices and routes in the respective data memories GDS / WDS and in the connection data memory VDS marked as reusable.

With the consistency check step KPS, the wrong assignment the data memory (VDS connection data memory, device or route data memory GDS / WDS) are derived from the following criteria: Are those in the connection data store VDS written device and route data memory in the consistency check step KPS (connection control test) free, then the connection data memory is wrong proven. Are also in the case of a device data memory GDS or a route data memory WDS during the corresponding test cycle g /, the status bit and the two control bits set, d. H. marked by the value 1, then the connection data store is VDS also wrongly assigned This state also leads in a known way to Error message and for the corresponding activation of the peripheral devices and routes as well as for the corresponding deletion of the memory contents in the corresponding data memories. Are also the connection data memory in a consistency check step KPS Peripheral data memory assigned to VDS - device data memory GDS and route data memory WDS - marked as occupied, but the physical device is free, so the route connection is incorrectly assigned and activated with the error message.

The entire connection data memory is used within the test routine VDS tested and then gsw with the test cycles of the peripheral equipment the device and route data memories GDS and WDS. If during the test the status bit is which marks the occupied and free status, not set, then you can go to the test of the next data memory can be switched. However, it is the status bit is set, then the corresponding first and second control bits must be checked and to control it in the manner described above.

The individual test cycles can take about 10 minutes repeat, whereby the test routine can be divided into any number of steps, so that the individual test cycles can be processed with lower priority. The critical case that a device data memory GDS for the outgoing allocation in the Minute area remains blocked, is bypassed that this is with an outgoing Assignment must be assigned again in each case and written with the new data can.

Claims (1)

Claims: 1. Method for monitoring the occupancy of at Path connections involved facilities for the purpose of activating incorrectly Equipment marked as occupied in telecommunication systems, especially in PCM telephone exchange systems, with functional units that set up the connections via switching paths Exchange information and thereby the facilities - peripheral devices and paths as well as central control devices - affect, with all devices separate Data memory are assigned, in the authoritative for the respective route connections Occupancy data can be entered, characterized by the combination of features 1.1 each data memory (GDS, WDS, VDS) has an occupied and free status marking status bit and a first and second controllable by a test routine Control bit on, 1.2 with receipts of the corresponding facilities are in the respective data memories (GDS, WDS, VDS) the corresponding first and second control bit deleted and the corresponding status bit set, 1.3 the test routine is through periodic a number of corresponding to the number of different devices data storage individual test cycles (vds, d w) realized, with a first Test cycle (vds or gsw) the first control bit and another similar one Test cycle (vds' or g / w or vds "or or) the second control bit of the corresponding device is set, 1.4 the test routine contains one for the Facilities with occupancy times longer than two consecutive periods Test cycles (vds, vds' or g / w, or those that become effective, via the connections to the Occupied and free status of the peripheral devices and routes recording consistency check step (KPs), which clears the second control bit when it is occupied and when it is free - route connection not consistent - the status belonging to the route connection and clears control bits of the facilities, 1.5 when the route connection is released are the status bit and the first and second control bit of the data memory (GDS, WDS, VDS) of the facilities involved in this route connection deleted 2. Procedure according to claim 1, characterized by the combination of the features 2.1 the time between two successive test cycles of the same type (vds, vds' etc.) a multiple of an average occupancy time of the route connection, 22 the test cycles (vds, glw) follow one another in any time sequence with low priority. The invention relates to a method for monitoring occupancy of facilities involved in road connections for the purpose of activating Facilities in telecommunications systems wrongly marked as occupied, in particular in PCM private branch exchanges, with functional units that are used to build the Exchange connections via switching paths and exchange information thereby the facilities - peripheral devices and routes as well as central control facilities - influence, whereby all facilities are assigned separate data memories, can be entered in the occupancy data relevant for the respective route connections are. In the telecommunications systems defined above, there are various Subscriber terminals, telephones or data devices route connections switched through, which are to be separated again after the message transmission has ended. The control and monitoring of the individual facilities is known to take place via appropriate Functional units over which the switching information be transmitted via appropriate coupling paths. There are several of the same type Facilities such as the peripheral devices and routes and the central control facilities, so-called data storage is assigned, in which the for the respective road connections relevant occupancy data are entered. For operational reasons it is necessary to set the facilities involved in a route connection to the occupied status to monitor and in particular to ensure that with the dismantling of the road connections all facilities are activated again. In this context it is known the activation of the device by disconnecting or triggering commands, if necessary with appropriate To effect acknowledgments. If there are no such commands or are in the Facilities not recognized, at least partial blockages can occur considerably reduce the performance of such telecommunications systems. From E-PS 00 32 677 a method is known in this context, so-called connection data memories at the specific peripheral and central facilities are assigned, in each of which all data relating to the route connection are entered will. In addition to occupancy information, there is also connection control information provided, which is set and deleted periodically. Through different sampling cycles it can be determined in each connection data memory whether the occupancy information coexists with the connection control information or not. Are If both pieces of information are available, there is a connection between the two Facilities that are marked as occupied in the connection data memory.