KR100318850B1 - Message transmission device in mobile switching center - Google Patents

Abstract

The present invention implements a message transmitting device in a mobile communication exchange, and more particularly, a message transmitting unit, that is, a message transmitting unit having a simple structure by implementing the functions of layers 1, 2, and 3, which are the main functions of ASS-7, in one circuit pack. The present invention relates to a message transmission device in a mobile communication switch for providing ASS-7), and according to the message transmission device in a mobile communication switch according to the present invention, a layer 1, 2 which is a main function of ASS-7. By implementing 3 functions in one circuit pack, it is possible to provide a message delivery unit (ASS-7) with a simple structure, which reduces the need for circuit packs, self and racks, and also requires less cables. It has the effect of easy maintenance.

Description

MESSAGE TRANSMISSION DEVICE IN MOBILE SWITCHING CENTER}

The present invention relates to an apparatus for transmitting a message in a mobile communication switch, and more particularly, a layer 1, which is a main function of a message transfer unit, that is, an ASS-7 (hereinafter referred to as ASS-7). The present invention relates to a message transmission apparatus in a mobile communication switch for providing a message transfer unit (ASS-7) having a simple structure by implementing two or three functions in one circuit pack.

As is well known, a general mobile communication switch exchanges a trunk control function with a central control subsystem (CCS) 1 for performing general maintenance functions of the system and a trunk matching function with other networks, as shown in FIG. A plurality of ASS-T (Access Switching Subsystem-T) 2 and Space Switch (3-1) are built-in to provide a network synchronizer function to provide various reference clocks in the system and at the same time the ASS-T (2) Interconnection Network Subsystem (INS) 3, which performs data / control information transmission between each other and between the ASS-7 (4) and CCS (1) through the space switch 3-1, and a common line signal; It consists of ASS-7 (4) and the like that performs the message delivery processing method. At this time, the block to which the present invention is applied is ASS-7 (4) in the above-mentioned mobile communication exchange.

In the conventional mobile communication switch, the message transmission apparatus, that is, the ASS-7 block 4, includes a HIPCU block 4-1, as shown in FIG. An STM block that performs the functions of providing a matching function with the time switch 3-1, a rate adaptation function, a layer 2 state check function, and a communication function with the layer 3 for layer 1 processing ( 4-2); An ST block 4-3 which performs signal terminal function for layer 2 processing; An SMHP block 4-4 which performs a message handling function among the functions of the layer 3; Among the functions of Layer 3, it consisted of ASP (4-5) which performs signaling network management function and subsystem management function. In addition, a signaling terminal network (STN) block 4-6 is required for communication between a plurality of layers 2 and 3.

However, the conventional STM block 4-2 mounted in the ASS-7 block 4 is made up of a total of 16 circuit packs, and the ST block 4-3 is made up of a total of 128 circuit packs. -4) consisted of a total of 48 circuit packs, and the STN block consisted of 27 circuit packs.

Accordingly, the message transmission apparatus in the conventional mobile communication switch has a problem that it is difficult to maintain and maintain the circuit pack, the self, and the rack, as well as the cable, as well as the cable.

In addition, the message transmission device of the conventional mobile communication switch has a high communication path, so that there is a high possibility of failure due to instability in the communication path, and it is difficult to detect a message failure, and it is a basic circuit even in a system requiring less signal link capacity. The pack was so large that it was not suitable for small systems.

By centralizing and processing the common line signal processing, the communication failure with the common line processing subsystem or the failure of the subsystem processor spreads to the failure of the entire switching system, thereby degrading the reliability of the system. Since routing with other stations is made via the time switch and the space switch in the switching system, there is a problem that the failure of the time switch in the space switch or the common line processing subsystem spreads to the system failure.

Accordingly, the present invention has been made to solve the above-mentioned conventional problems, and an object of the present invention is to provide a simple circuit pack by implementing a layer 1, 2, and 3 function, which is a main function of the message transfer unit, that is, ASS-7. The present invention provides a message transmission apparatus in a mobile communication switch for providing a message transfer unit (ASS-7) having a structure.

In order to achieve the above object, the message transmission apparatus in the mobile communication exchange of the present invention includes a plurality of ASS-Ts and a space switch for performing trunk matching with other networks. INS and a common line to provide data synchronization control between the ASS-T and the ASS-7 and the CCS through the space switch while providing a network synchronizer function to provide various reference clocks in the system. In the mobile communication exchange consisting of ASS-7 and the like to perform the message delivery processing of the signaling method,

The ASS-7 includes an ASP for performing a signal network management function;

A global bus for transmitting data output from the ASP;

A time switch connected to the space switch of the INS;

Global bus matching unit performing matching with global bus, which is a communication path with upper ASP block, common memory signaling system, main memory unit for storing a large amount of data related to layer 3 function, which is a message handling function, and a layer stored in the main memory unit. When performing the layer 3 function, which is a message handling function using the data of 3 functions, and receiving the signal link activation signal transmitted from the ASP block through the global bus matching unit when the signal link is activated, the signal is transmitted through the common memory unit, When receiving the signal link activation result value through the memory unit is transmitted to the ASP block through the global bus matching unit, and after receiving the various messages from the global bus matching unit after the signal link is activated, the various messages through the common memory unit Main processor for transmitting, Signal link processing unit that performs layer 2 function, which is a call link function, activates a plurality of signal links by performing signal link initial alignment procedure when signal link is activated, and outputs the result value, and times that perform layer 1 function, which is a rate adaptation function. When the position matching unit and the signal link activation receive a signal link activation signal from the main processor unit, the signal link processing unit requests the signal link activation and at the same time, the transmission rate required by the main processor unit for rate adaptation of the time switch matching unit. After the control is connected to the signal link processing unit and the time switch matching unit, and then receives the signal link initial alignment procedure result value from the signal link processing unit and transmits to the main processor unit and after the signal link is activated various messages from the main processor unit When you receive the times And a plurality of message transmission circuit packs each including a sub-processor unit for transmitting to an external relative signal point through a position matching unit, and a duplication unit for providing a communication path necessary for redundancy operation between circuit packs.

1 is a functional block diagram showing the configuration of a general mobile communication switch,

2 is a functional block diagram showing an internal configuration of a message transmission apparatus in a conventional mobile communication exchange;

3 is a functional block diagram showing an internal configuration of a message transmission apparatus in a mobile communication switch according to an embodiment of the present invention.

<Explanation of symbols for the main parts of the drawings>

100: ASP 200: Global Bus

300: time switch 400: message transmission circuit pack

401: global bus matching unit 402: main memory unit

403: main processor unit 404: signal link processing unit

405: time switch matching unit 406: sub-processor unit

407: redundancy

Hereinafter, a message transmission apparatus in a mobile communication switch according to an embodiment of the present invention will be described in detail with reference to the accompanying drawings.

3 is a functional block diagram of an apparatus for transmitting a message in a mobile communication switch according to an embodiment of the present invention. The apparatus for transmitting a message in an mobile communication switch according to an embodiment of the present invention is an access switch processor (ASP) 100. )Wow; A global bus 200; A time switch 300; Global bus matching unit 401, main memory unit 402, main processor unit 403, signal link processing unit 404, time switch matching unit 405, sub-processor unit 406 And a plurality of message transmission circuit packs 400 each having a redundancy unit 407.

The ASP 100 is a block for performing a signal network management function and transmits a signal link activation signal to the main processor 403.

On the other hand, the global bus 200 is a bus for transmitting the data output from the ASP (100) to the plurality of message transmission circuit pack 400.

The time switch 300 is a switch connected to the space switch 3-1 of the INS 3.

Meanwhile, the global bus matching unit 401 respectively installed in the plurality of message transmission circuit packs 400 performs matching with the global bus 200 which is a communication path with the upper ASP 100 block in the common signal system. Play a role.

In addition, each of the main memory units 402 mounted in the plurality of message transmission circuit packs 400 is a memory for storing a large amount of data associated with a layer 3 function, which is a message handling function.

On the other hand, the main processor unit 403 mounted in each of the plurality of message transmission circuit pack 400 performs a layer 3 function, which is a message handling function using the data of the layer 3 function stored in the main memory unit 402, When signal link activation receives the signal link activation signal transmitted from the ASP 100 block through the global bus matching unit 401, the signal is transmitted to the sub processor unit 406 through the common memory unit 408. Meanwhile, when the signal link activation result value transmitted from the sub processor unit 406 is received through the common memory unit 408, the result value is received through the global bus matching unit 401. It serves to transmit to.

In addition, when the main processor unit 403 receives various messages from the global bus matching unit 401 after the signal link is activated, the main processor unit 403 receives the various messages through the common memory unit 408. In the meantime, while monitoring an active channel of the global bus matching unit 401, if an error occurs in the active channel, the bus switches to the stand-by channel.

Meanwhile, the signal link processing units 404 respectively installed in the plurality of message transmission circuit packs 400 perform a layer 2 function, which is a signal link function, and the signal link activation request signal from the sub processor unit 406 when the signal link is activated. When the signal is input, it performs a signal link initial alignment procedure to activate a plurality of signal links and transmits the result values to the sub-processor unit 406.

In addition, the time switch matching unit 405 respectively installed in the plurality of message transmission circuit packs 400 is a matching unit performing a layer 1 function, which is a rate adaptation function, under the control of the sub processor unit 406. The processor 403 adjusts the rate adaptation at a desired transmission rate.

On the other hand, each of the sub-processor unit 406 mounted in the plurality of message transmission circuit pack 400 receives the signal link activation signal from the main processor unit 403 at the time of signal link activation to the signal link processing unit 404 The signal link processor 404 and the time switch matcher 405 are controlled after controlling the rate adaptation of the time switch matcher 405 at the transmission rate requested by the main processor 403. ), And then receives the signal link initial alignment procedure result value from the signal link processing unit 404 and transmits it to the main processor unit 403.

In addition, after the signal processor is activated, the sub processor unit 406 receives various messages from the main processor unit 403, and transmits the external processor signal to an external relative signal point through the time switch matching unit 405. While monitoring the active channel of the time switch matching unit 405, if an abnormality occurs in the active channel, it switches to the stand-by channel.

On the other hand, the redundancy unit 407 mounted in each of the plurality of message transmission circuit pack 400 serves to provide a communication path required for redundancy operation between circuit packs.

Next, an operation process of the message transmission apparatus in the mobile communication exchange having the above configuration will be described with reference to FIG. 3.

First, the operation process when the signal link activation of the present invention will be described, the ASP 100 transmits a signal link activation signal to the plurality of message transmission circuit packs 400 through the global bus 200. .

Then, the global bus matching unit 401 mounted in each of the plurality of message transmission circuit packs 400 receives the signal link activation signal transmitted from the upper ASP 100 and transmits the main processor unit 403.

Subsequently, the main processor unit 403 mounted in each of the plurality of message transmission circuit packs 400 receives the signal link activation signal transmitted from the global bus matching unit 401 and receives the common memory unit 408. The sub processor 406 transmits the data through the sub processor unit 406.

Then, the sub-processor unit 406 mounted in each of the plurality of message transmission circuit packs 400 receives the signal link activation signal from the main processor unit 403 and then sends the signal link to the signal link processing unit 404. The signal link processor 404 and the time switch matcher 405 are controlled at the same time as controlling the rate adaptation of the time switch matcher 405 at the transmission rate requested by the main processor 403. Connect

In this case, the signal link processing unit 404 mounted in each of the plurality of message transmission circuit packs 400 receives a signal link activation request signal from the sub processor unit 406 and performs a signal link initial alignment procedure. After activating the signal link and transmits the result value to the sub-processor unit 406.

Then, the sub processor unit 406 receives the signal link initial alignment procedure result value output from the signal link processing unit 404 and transmits the result to the main processor unit 403.

In addition, the main processor unit 403 receives the signal link activation result value transmitted from the sub processor unit 406 through the common memory unit 408, and then receives the result value as the global bus matching unit 401. ) To the ASP 100 block.

Therefore, signal link activation is performed by the above-described operation process.

On the other hand, after the signal link is activated as described above, the main processor unit 403 receives various messages from the global bus matching unit 401, and then sends the various messages through the common memory unit 408. The sub processor 406 transmits the data.

Then, the sub processor unit 406 receives various messages from the main processor unit 403 and transmits them to the external relative signal points through the time switch matching unit 405 to perform a normal data transfer operation. do.

In addition, up to 32 message transmission circuit packs 400 according to the present invention can be mounted, and as a result, a total of 32 circuit packs can implement a block performing the same function as the conventional ASS-7.

As described above, according to the message transmission apparatus of the mobile communication switch according to the present invention, the message transmission unit, that is, the message having a simple structure by implementing the layer 1, 2, 3 functions, which are the main functions of the ASS-7, in one circuit pack It can provide the transfer part (ASS-7), which reduces the need for circuit packs, shelves, racks, and cables. have.

Another effect is that according to the present invention, the communication path is simplified, so that the communication path can be stabilized, thereby preventing message loss, and also suitable for a small capacity system requiring less signal link capacity. .

In addition, according to the present invention, it is possible to prevent the communication failure with the common line processing subsystem or the failure of the subsystem processor from spreading to the failure of the entire switching system, thereby improving the reliability of the system.

Claims (6)

CCS, which performs the overall maintenance function of the system, ASS-T, which performs trunk matching function with other networks, and space switch are built-in, and provides the network synchronizer function to provide various reference clocks in the system. A mobile communication switch comprising an INS for performing data / control information transmission between the ASS-T and the ASS-7 and the CCS through the space switch, and the ASS-7 for performing a message transfer processing function of the common line signaling method. In The ASS-7 includes an ASP for performing a signal network management function; A global bus for transmitting data output from the ASP; A time switch connected to the space switch of the INS; Global bus matching unit performing matching with global bus, which is a communication path with upper ASP block, common memory signaling system, main memory unit for storing a large amount of data related to layer 3 function, which is a message handling function, and a layer stored in the main memory unit. When performing the layer 3 function, which is a message handling function using the data of 3 functions, and receiving the signal link activation signal transmitted from the ASP block through the global bus matching unit when the signal link is activated, the signal is transmitted through the common memory unit, When receiving the signal link activation result value through the memory unit is transmitted to the ASP block through the global bus matching unit, and after receiving the various messages from the global bus matching unit after the signal link is activated, the various messages through the common memory unit Main processor unit to transmit, new Signal link processing unit that performs layer 2 function, which is a call link function, activates a plurality of signal links by performing signal link initial alignment procedure when signal link is activated, and outputs the result value, and times that perform layer 1 function, which is a rate adaptation function. When the position matching unit and the signal link activation receive a signal link activation signal from the main processor unit, the signal link processing unit requests the signal link activation and at the same time, the transmission rate required by the main processor unit for rate adaptation of the time switch matching unit. After the control is connected to the signal link processing unit and the time switch matching unit, and then receives the signal link initial alignment procedure result value from the signal link processing unit and transmits the result to the main processor unit and various messages from the main processor unit after the signal link is activated When you receive the times In the mobile communication switch comprising a plurality of message transmission circuit packs each having a sub-processor unit for transmitting to the external relative signal point through the position matching unit, and a redundancy unit for providing a communication path required for redundancy operation between circuit packs. Message transmitter. The method of claim 1, And said plurality of message transmission circuit packs provide four signal terminal capabilities, respectively. The method of claim 1, And a global bus matching unit mounted in each of the plurality of message transmission circuit packs is dualized into an active channel and a standby by channel. The method of claim 1, In the mobile communication switch, a main processor unit mounted in each of the plurality of message transmission circuit packs monitors an active channel of the global bus matching unit and switches to a standby by channel when the active channel is defective. Message transmitter. The method of claim 1, And a time switch matching unit mounted in each of the plurality of message transmission circuit packs is dualized into an active channel and a standby by channel. The method of claim 1, The sub-processor unit mounted in each of the plurality of message transmission circuit packs monitors an active channel of the time switch matching unit and performs a function of switching to a standby by channel when the active channel is defective. Message transmitter.