KR100301578B1 - Interface device between control station and exchange using no.7 signal protocol - Google Patents

Abstract

PURPOSE: An interface device between a control station and an exchange using a NO.7 signal protocol is provided to perform various additional services, a high-speed data service, and a multimedia service by using a NO.7 signal protocol. CONSTITUTION: An interface device of a control station is formed with a DTAP(320), a BSSAP(310), a BSSMAP(330), an SCCP(340), and an MTP(350). The DTAP(320) performs a transferring function of unanalyzed information and supports a connective procedure. A BSSMAP(330) performs functions of a terminal, sub-shells of a control station, and the control station and supports the connective procedure and a non-connective procedure. The BSSAP(310) includes the DTAP(320) and the BSSMAP(330) and performs a message transfer function between a mobile station and an exchange. The SCCP(340) transmits signal information or transfer information for an additional service through a NO.7 signal network. The MTP(350) transmits the signal message though an error is generated in a signal link or an STP. An interface device of the exchange is formed with a BSSAP(410) including a DTAP(420) and a BSSMAP(430), an SCCP(440), an MTP(450), an MAP(460) connected with an HLR(500), a VLR(600), and an EIR(700), a TCAP(470), and an ISUF/TUP(480) connected with an ISDN or a PSDN.

Description

Interface device between control station and exchange using NO.7 signaling protocol

The present invention applies a signal transmission method using the NO.7 signal protocol to a signal network between a control station and an instructor of a mobile communication network, as well as between an exchange and other components of a mobile communication system. An interface device between a control station and an exchange using a signaling protocol is provided.

In general, a digital mobile communication network supporting a personal communication system provides various complex services such as various additional services, high-speed data services, and multimedia services as well as existing simple voice services.

However, there has been a problem that efficient signal information transmission and service provision are not sufficient as a conventional signal information transmission method in a communication network.

In addition, the NO.7 protocol is planned to be adopted as a mobile communication network and signaling protocol for the purpose of use in digital communication networks and ISDN.

Accordingly, the present invention has been made in view of the above-described aspects, and its object is composed of high-speed signal speed and variable length signal information to cope with digitization and comprehensive service of communication network to take advantage of data transmission technology. Interface between control station and exchange using NO.7 signaling protocol to apply various additional services such as high-speed data service and multimedia service by applying to mobile communication network using NO.7 signaling protocol It is to provide a device.

The interface device between the control station and the exchange using the NO.7 signaling protocol of the present invention to achieve this object is not responsible for the DTAP that performs information transfer functions that are not interpreted in the control station and supports the connected procedures. Terminal, control station sub-cell, BSSMAP that controls the function of the control station and supports both connected and disconnected types. Control consisting of SCCP which transmits signal information or repair and transportation information for additional service such as inquiry through NO.7 signal network, and MTP which transmits and guarantees signal message with high reliability even in case of signal link and STP failure. A domestic interface device; BSSAP consisting of DTAP and BSSMAP, SCCP, and MTP, MAP connected to HLR, VLR, EIR, TCAP, ISDN or PSTN to perform the same function as the interfacing device in the control station. Characterized in that it comprises an interfacing device in the exchange consisting of ISUP / TUP.

1 is a block diagram of a typical GSM mobile communication system.

2 is a block diagram of an interface device between an exchange and a control station using the NO.7 signaling protocol of the present invention.

3 is a detailed block diagram of the MTP of FIG.

* Explanation of symbols for main parts of the drawings

310,410: BSSAP 320,420: DTAP

330,430: BSSMAP 340,440: SCCP

350, 450: MTP 351: Signal message processing unit

352: message distribution unit 353: message identification unit

354: message path setting unit 355: signal network management unit

356: signal traffic management unit 357: signal path management unit

358: signal link management unit

1 is a block diagram of a general G1oba1 System for Mobile (GSM) mobile communication system, which transmits and receives messages and manages radio resources with a mobile station 100 moving an unspecified area. A base station 200, a base station controller 300 that controls the base station 200 and transmits and receives messages with the base station 200, and a switch that performs a switching role in conjunction with other stations and other networks. Switching Center (400) and the Home Location Register (HLR) 500, which semi-permanently stores the entire subscriber network related information, and stores or provides information necessary for services such as additional services, location registration, call processing, authentication, and the like. And a VLR (Visit Location Register) 600 which stores service area subscriber related information and provides it to the switch 400 when setting up a call and exchanges subscriber information with the HLR 500 to perform information deletion and additional functions. And an EIR (Equipment Identity Register) 700 which performs a function of maintaining and managing terminal state information and providing terminal state, such as permission and prohibition of use of the mobile station 100.

Fig. 2 is a block diagram of an interface A device between the switch 400 and the control station 300 using the NO.7 signaling protocol of the present invention, wherein the interface device in the control station 300 is analyzed in the control station 300. Direct transfer application part (DTAP) 320, which performs information transfer functions that do not support information and supports connected procedures, and terminals, control station 300 subcells, and control station 300 that are not in charge of the DTAP 320. Base Station System Management Application Part (BSSMAP) 310 that is responsible for and supports both connected and disconnected base station system application part (BSSSAP) 310 for message transfer between the mobile station 100 and the exchange 400 And a SCCP (Signalling Connection Control Part) 340 for transmitting non-line correspondence signals and transmitting signal information or maintenance and transportation information for additional services such as inquiries between databases through the NO.7 signal network; , Signaling ring It is high and the signal message in the event of a failure of the STP (Signalling Transfer Part) consists of a transmitting and guarantee Message Transfer Part (350) MTP (which reliability.

And the interface device of the switch 400 is made almost the same configuration as the interface device in the control station 300, in particular the MAP (460) for connecting to the HLR 500, VLR 600, EIR 700, A TCAP 470 and an ISUP / TUP 480 for signaling connection with an ISDN or a PSTN are additionally provided.

3 is a detailed block diagram of the MTP (350, 450) of FIG. 2, the MTP (350,450) is to notify the neighboring station of the fault or to reconfigure the routing of the signal message passing through the signal network, the signal message processing unit ( Signaling Message Handling (351) and Signaling Network Management (Signalling Network Management) (355).

When the destination point code of the message matches the received signal point, the signal message processor 351 transmits a message to a corresponding user or a signal network manager, and a message distribution unit 352 to receive the message. In order to determine whether the destination is called, the destination code of the received message, that is, the address, is examined and if it is a destination, it performs the distribution function and transmits it on the appropriate outgoing link to the destination if it is not the destination. On the basis of the message identification unit 353 for generating a prohibition message and the destination address of the routing table of the signaling message, the link set to be used for transmission is determined and the specific link is transmitted. Message Routing 354 is selected by the link.

The signal network management unit 355 bypasses the failure by controlling the path of the signal traffic when the failure occurs or controls the traffic when the congestion, by switching the signal traffic from one link or path to one or more other links or paths or Signaling Traffic Management 356, which temporarily reduces the signal traffic in case of congestion at the signal point, analyzes information about the signal network status to close or open the signal path, prohibits message transmission, and permits delivery. Signaling path management unit 357 for performing control, propagation control, signal path test procedures, and the like, and a signal link for controlling a signal link connected to a local signal point to restore the link set's ability in case of a signal link failure. It consists of a management link (Signalling Link Management) (358).

The operation of the A interface device between the switch 400 and the control station 300 using the NO.7 signaling protocol of the present invention configured as described above will be described in detail as follows.

Where NO. 7 Signaling protocol refers to a signaling method that forms a dedicated signal transmission line separately from a call line and controls several call lines using the signal line.

Signal message communication is performed through the A interface device between the control station 300 and the switch 400 according to the NO.7 signal protocol scheme as described above.

The network management and message routing functions are applied by applying the same functions as the MTPs 350 and 450 between the control station 300 and the switch 400. Only the link set signal route is established between the control station 300 and the switch 400 on the day. Therefore, network operation is maintained even in case of one link failure.

In addition, the control station 300 and the switch 400 are easily configured to manage a single link set, and signal traffic management and signal link management functions such as load balancing and switching / reversion switching are applied only within the link set. .

At this time. The load balancing of the signal traffic is performed at the control station 300.

Only class 0 and class 2 of the four classes defined in No. 7 used in the interface A device of the present invention are used.

Class 0 is used for messages that are not directly related to the mobile station 100 as a basic connectionless service, i.e. messages relating to return, load notification, and class 2 is a basic connected service, by establishing individual independent paths. ).

The SCCP connection is mostly made at the control station 300, and is established at the signal path such as location update or call setup, and is generated only when a new cell secretary is established at the time of handover.

The routing is made based on the MTP's destination signaling station code and the subsystem number information in the destination address, and the SCCP translation function on the A interface is not applied.

That is, the called point code and the subsystem number are directly routed between the SCCP and the MTP in the switch 400.

Since the control station 300 and the switch 400 are neighboring network elements, the destination address is composed of a single element, so that the global title (GT) function, which is the overall address information, is not used.

In addition, functions such as error detection, acknowledgment, and flow control of expedited data transmission are not provided.

The SCCPs 340 and 440 are used to transmit non-line correspondence signals, and efficiently transmit signal information or maintenance and transportation information for additional services such as inquiries between databases through the NO.7 signal network to provide MTP functions. It serves to supplement.

The SCCPs 340 and 440 identify the mobile station 100 by setting individual independent paths.

As described above, the present invention can take advantage of the data transmission technology by using the NO.7 signal protocol composed of high-speed signal speed and variable length signal information, and cope with digitalization and comprehensive service of the communication network. It is possible to provide a variety of complex services, such as various additional services, high-speed data services and multimedia services.

Claims (2)

DTAP 320 for performing information transfer functions not interpreted within the control station 300 and supporting a connected procedure, and a terminal, control station 300 accessory cell, and control station 300 not responsible for the DTAP 320. BSSMAP 310 that functions and supports both connected and disconnected, BSSAP 310 for message transmission between the mobile station 100 and the switch 400, and the database used for the transmission of non-line correspondence signals SCCP 340 which transmits signaling information or maintenance and transportation information for additional services such as inter-inquiry through the NO.7 signal network, and transmits and guarantees signal messages with high reliability even in the event of signal link and STP failure. An interface device in the control station 300 configured of the MTP 350; BSSAP 410 consisting of DTAP 420 and BSSMAP 430, SCCP 440, MTP 450, and HLR 500 that perform the same functions as the interface device in the control station 300. , An MAP 460 for connecting to the VLR 600 and the EIR 700, and an interface device in the switch 400 including the TCAP 470 and the ISUP / TUP 480 for signaling the ISDN or PSTN. Interface device between the control station and the switch using the NO.7 signaling protocol. The method of claim 1, When the destination point code of the message matches the received signal point, the MTPs 350 and 450 determine whether the message distribution unit 352 transmits the message to the user or the signal network manager, and whether the received signal point is the destination point of the message. In order to check the destination code of the received message, if the destination is a destination, the distribution function is performed. If the destination is not the destination, the message is transmitted on the appropriate outgoing link directed to the destination. A signal message composed of a message identification unit 353 and a message path setting unit 354 for determining a link set to be used for transmission based on a destination address in a routing table of a signaling message, and selecting a specific link as a transmission link among them. A processing unit 351; The signal traffic management unit 356 for switching the signal traffic from one link or path to one or more other links or paths or temporarily reducing the signal traffic in case of congestion at the signal point, and for closing or opening the signal path. The signal link is broken by controlling the signal path manager 357 which analyzes the information about the signal network status, prohibits message transmission, permits transmission, control transmission, and signal path test, and the signal link connected to the local signal point. I interface device between the control station and the switch using the NO.7 signaling protocol characterized by consisting of a signal network management unit 355 consisting of a signal link management unit 358 to restore the capability of the link set.