KR19990053971A - Code Division Multiple Access Mobile Communication Switch Traffic Simulator Function Test Method - Google Patents

Abstract

The present invention relates to a functional test procedure in a traffic simulator for testing a code division multiple access mobile communication switch. The present invention relates to a signaling method and a connection standard used by a mobile communication switch under a test environment in which a wireless access network including a base station is not yet established. In a traffic simulator that provides a realistic call environment, the user enters a test scenario and a message sequence into the traffic simulator. The traffic simulator analyzes the test scenario and analyzes and executes a message sequence for each event included in the event sequence. Whenever it is necessary to send a message, a functional test procedure is proposed to compose the message from the message information element information input by the user and send it to the mobile communication exchange.

Description

Code Division Multiple Access Mobile Communication Switch Traffic Simulator Function Test Method

The present invention relates to a method for testing a function of a traffic simulator of a code division multiple access mobile communication switch, and in particular, to test the function and performance of a mobile communication exchange (CDMA) which plays a pivotal role in a code division multiple access (CDMA) mobile communication network. The present invention relates to a functional test procedure in a traffic simulator for testing mobile communication exchanges.

Public Switched Telephone Network (PSTN) electronic switchboards generally accept only fixed subscribers, so subscriber lines are directly connected to the subscriber processing board of the switchboard. Therefore, most exchange test equipment is testing the exchange by generating a signal such as a telephone used by fixed subscribers through a line directly connected to the exchange. However, the mobile communication exchange has a structure in which the mobile subscriber is wirelessly connected to the base station and the base station is connected to the exchange. Therefore, it is difficult to test the mobile communication exchange with the existing exchange test equipment. In addition, all the network elements (mobile terminal, base station, base station controller, visited subscriber location register, home subscriber location register) in the code division multiple access mobile communication system are prepared together with the mobile communication switch for the test of the mobile communication exchange. Should be However, building these network elements simultaneously during development is not easy.

The mobile switching center traffic simulator is used as a method for testing the mobile switching center without the complete mobile network elements being prepared. The mobile traffic switch traffic simulator is a device that provides the actual call environment while providing the signaling method and connection standard used by the mobile communication switch.

According to the present invention, a mobile communication switch traffic simulator, which is a traffic generating device for testing a mobile communication switch, constructs a test message for testing a mobile call from test information input by a user, and transmits the test message to the mobile communication switch to provide the actual base station. The goal is to provide a traffic testing environment similar to the

In addition, the mobile switching center simulator should be able to send and receive messages with the mobile switching center according to the signal interface specification between the base station and the mobile switching center in order to perform the performance and function test of the mobile switching center completely. In particular, when the mobile communication exchange simulator needs to transmit a message to the mobile communication exchange during the execution of the test scenario, a method for effectively composing the message from the test information input by the user is needed.

1 is a structure diagram of a code division multiple access mobile communication system to which the present invention is applied.

2 is a structural diagram of a code division multiple access mobile communication switch;

3 is a structural diagram of a traffic simulator device for testing a code division multiple access mobile communication switch;

4 is a structural diagram of a simulator control subsystem in a traffic simulator.

5 illustrates an interface between simulator control subsystem (SCS) components.

6 is a procedure of configuring a test message of a test program (TSE: Test Scenario Executor).

7 is a diagram illustrating a functional test procedure in a mobile communication switch traffic simulator.

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

100: mobile station (MS) 101: base station (BTS)

102: base station controller (BSC) 103: mobile communication switch (MSC)

104: Visitor Location Register (VLR) 105: Home Subscriber Location Register (HLR)

106: existing network

Hereinafter, the present invention will be described with reference to the accompanying drawings.

According to the present invention, a call test scenario and an event message sequence are analyzed to construct a call setup message transmitted between a base station and a mobile communication switch in a mobile switching center traffic simulator. According to this, necessary data were read from a file to compose a message.

1 is a diagram illustrating a code division multiple access mobile communication system network structure to which the present invention is applied, and includes a mobile terminal 100 (MS), a base station 101 (BTS), and a base station controller 102. (BSC: Base Station Controller), Mobile Switching Center (MSC: Mobile Switching Center), Visitor Location Register (104) (VLR: Visitor Location Register), Home Subscriber Location Register (105) (HLR: Home Location Register And control signal information is exchanged through common line signal network. The mobile terminal 100 has a terminal function of providing a code division multiple access mobile communication service to a mobile subscriber. The base station 101 is a base station wireless device that communicates with the mobile terminal 100 through a wireless connection, and is responsible for a wired / wireless connection function between the mobile terminal 100 and the base station control device 102, and accesses the base station control device 102. It consists of E1 / T1 digital trunk line matching devices. The base station control apparatus 102 is a device for controlling the radio channel and the relay lines of the base station 101 and performs the role of mapping the radio channel to the wired channel. The mobile communication exchange 103 provides a call processing function for a mobile subscriber and an interworking function with an existing network 106. The visited subscriber location register 104 contains temporary information for all mobile terminals 100 located within the mobile switching center 103 and located within the current mobile switching area. The home subscriber location register 105 stores and manages subscriber information and location information of all mobile terminals 100 registered in the mobile communication network as a central database.

2 is a schematic diagram of a code division multiple access mobile communication switch, which is a base station matching device 200 (base station interface), a switch network 201 (switch), a trunk line matching device 202 (trunk interface), and a subscriber location register matching device ( 203 (Location Register Interface) and a central control unit 204 (Control Processor).

3 is a diagram illustrating a connection between a code division multiple access mobile communication switch 310 and a test traffic simulator 300 (TSS: Traffic Simulator System) and the mobile communication switch 310. The traffic simulator 300 of FIG. 3 includes a simulator control subsystem 302 (SCS: Simulator Control Subsystem) that collectively controls the test to perform the function and load test of the mobile communication switch 310 and the mobile call set during the test. It consists of a channel test subsystem (301) (CTS: Channel Test Subsystem) for confirming the configuration state by the actual call. The channel test subsystem 301 is connected to the mobile switching center 310 through an E1 or T1 digital relay line, and generates a large amount of traffic having a traffic characteristic of the mobile subscriber to connect the digital relay line connected to the mobile switching center 310. It transmits to the mobile communication switch 310 through. The IPC link conforming to the RS422 standard configured between the SCS 302 and the mobile communication exchange 310 is used as a signal link between the mobile communication exchange 310 and the base station controller 102, and the call in the mobile communication exchange 310 The signal message between the base station control device 102 and the mobile communication exchange 310 is exchanged through this link.

4 is a structural diagram of a simulator control subsystem (SCS) in a traffic simulator. Components within the simulator control subsystem include a user interface (UI) 45, a test controller 47, a base station signal manager 46, and test data. Test Data Manager (TDM) (42), Sequence Editor (SEDIT) (41), Inter Processor Communication Server (IPCS) (48), Channel Information Manager (CHIM) 43, a processor communication control board assembly (PCCA) driving device 49 for controlling the PPCA, and the like, and operates in a computer system using UNIX as an operating system. Here, the user matching device 45, the test controller 47, and the base station signal manager 46 form a single test program (TSE: Test Scenario Executor) 44 to perform a simulation through an interface with an actual user. It works. The user interface (UI) 45 receives the information and commands required for the test from the user, drives the test controller 47, stores the test situation and the result, and outputs the result to the user screen. The test controller 47 analyzes the coded test scenario, message sequence, and mobile subscriber information received from the user matching device 45, and controls the performance of the test procedure required by the user to control the message with the exchange. It executes the transmit / receive operation and report the test results to the user matching device 45. The base station signal manager (BSM) 46 has a function of configuring the signal message to be transmitted by the test controller 47 to the exchange according to the protocol format of the base station controller-mobile communication exchange signal interface standard (draft). It is responsible for analyzing the message received by the test controller 47 from the exchange and delivering the result to the test controller 47.

The interprocess communication server 48 is responsible for the communication function between the mobile switching center and the base station control unit, so that when multiple execution programs (TSE) 44 request message transmission / reception with the exchange, the message is correctly exchanged and tested. Deliver it to them. The Channel Information Manager (CHIM) 43 is responsible for allocating and releasing a call to be used for each execution program (incoming and incoming mobile call) 44 when the inter-call call test is required. The test data manager (TDM) 42 manages the information data of mobile subscribers whose execution programs 44 are required to construct a message according to the signal interface standard between the mobile communication exchange and the base station control apparatus. The sequence editor (SEDIT) 41 functions to create a file constituting a message transmission / reception sequence with an exchange to be performed for each event (action) of the defined mobile call.

5 shows the interface between the simulator control subsystem components. The execution program 501, which is a test process for simulating a base station, includes a test scenario file 504 describing a mobile call operation created by a user, message sequence files 505 defining a transmission / reception sequence of a message according to the mobile call operation, and The mobile subscriber information file 506 necessary for constructing a transmission message with the exchange is used to perform a test procedure desired by the user. The interface with the interprocessor communication server 513 that is responsible for sending and receiving the actual messages with the exchange uses a Unix message queue 509, and the executable program (TSE) 501 is a circuit for testing the call. The requirements for allocating and releasing circuit identity code (CIC) are shared memory (508) and semaphores, which are implemented to maintain synchronization of circuit-aware code data and synchronization problems between executable program processes. 507).

6 shows a procedure of constructing a test message of an execution program by a function test procedure. When the user selects the functional test scenario, the events are sequentially performed according to the selected scenario (61). The performance of an event is transmitted / received by configuring an information element corresponding to each message (62) in accordance with the order of message sequences defined in each event (62).

7 is a functional test procedure in the mobile switching center traffic simulator. The user configures an outgoing call test scenario consisting of a calling party number, a called party number, and an event sequence and inputs the traffic simulator to the traffic simulator (701). For each event included in the event sequence of the outgoing call test scenario, a sequence of messages composed of a message name, transmission direction, time, and message type is configured and input to the traffic simulator (702). When the message type of the message is transmission (Tx), information element information including information element name, direction, information element type, and length is configured and input to the traffic simulator (703). The actual subscriber information necessary for constructing the information element is configured and input into the traffic simulator (704). When the input is completed, the traffic scenario is performed by the traffic simulator in parallel (705). The message sequence corresponding to each event is analyzed to process each message (707). If the transmission direction of the message is to be transmitted (Tx), that is, transmitted to the mobile communication switch (708), the input message information and the subscriber are input. A message is constructed from the information (709) and sent to the mobile communication switch (710).

As described above, according to the present invention, in order to provide an outgoing mobile call traffic environment in a mobile switching center traffic simulator, a test scenario file, a message sequence file, and information on a message configuration input from a user are received from the user, and according to the test scenario. By performing a message sequence and constructing a message that needs to be transmitted to a mobile communication switch from information input by a user, it is possible to provide a traffic environment similar to that in the performance and function test of the mobile communication exchange.

Claims (3)

The user configures and inputs the outgoing call test scenario consisting of the calling party number, the called party number, and the event sequence into the traffic simulator; Constructing a sequence of messages for each event included in an event sequence of the outgoing call test scenario and inputting it to a traffic simulator; When the message type of the message is transmission, the user inputs information to the traffic simulator; Inputting, by the user, the actual information necessary for constructing the information element into the traffic simulator; Processing an event while a traffic simulator performs the test scenario input by the user; Analyzing the message sequence corresponding to each event and transmitting / receiving a message with the mobile communication refiner; Constructing an information element included in the message from test information input by the user when transmitting a message to the mobile communication switch; And transmitting the configured message to a mobile communication switch. The method of claim 1, And said message comprises a message name, a transmission direction, a time, and a message type. The method of claim 1, And the information element information comprises an information element name, direction, information element type, and length.