KR20010001286A - Method for testing set up and release of voice call in radio network controller for broadband wireless mobile station - Google Patents

Abstract

PURPOSE: A method for testing the setup and release of a general call in an RNC(Radio Network Controller) of IMT-2000 is provided to load a base station simulator and an MSC(Mobile Switching Center) simulator in a main processor inside the RNC, without physically linking the RNC with the BS and MSC, so that time and costs for the testing can be reduced. CONSTITUTION: An originating message generated in a base station simulator is transmitted to an RNC(Radio Network Controller), corresponding to an instruction input for setting up a general call including a virtual originating terminal telephone number and a virtual incoming terminal telephone number. An originating call is set up through message interface among the RNC and an MSC(Mobile Switching Center) simulator, and the base station simulator, corresponding to the generated originating message. Channels are allocated to the virtual originating terminal. An incoming call is set up through message interface among the RNC, the MSC simulator, and the base station simulator, in reply to an incoming call setup message provided from the MSC simulator. An incoming ring, a ring-back tone and an originating ring are provided to the virtual originating terminal and the virtual incoming terminal through message interface among the base station simulator, the RNC, and the MSC simulator. Accordingly, the virtual originating terminal and the virtual incoming terminal are connected in a general call speech state. The above steps for setting up a general call are monitored.

Description

Test method for general call setup and release in broadband wireless mobile base station controller {METHOD FOR TESTING SET UP AND RELEASE OF VOICE CALL IN RADIO NETWORK CONTROLLER FOR BROADBAND WIRELESS MOBILE STATION}

The present invention relates to a method for testing establishment and release of a general call in a radio network controller (RNC) of a broadband wireless mobile terminal (IMT-2000). The present invention relates to a general call establishment and release testing method in a broadband wireless mobile station base station controller suitable for testing establishment and release of a general call without interworking with a mobile communication system.

In recent years, the IMT-2000 system, which is rapidly progressing in the development of commercialization and standardization technology and application technology, has been named by the International Telecommunication Union (ITU) in the global participation in Europe, the United States, and Japan. It is a 3rd generation mobile communication system that is standardized for service between 2000 and 2000, and aims to realize a multimedia service using a broadband wireless mobile terminal.

Such an IMT-2000 mobile communication system, as shown in FIG. 1, has a mobile switching center 102, a location register 104, a base station controller 106, a base station 108/1-108 / n and a mobile terminal 110. / L-110 / n, 112/1-112 / n).

Referring to FIG. 1, the Mobile Switching Center (MSC) 102 performs control of connection (call establishment and call release, etc.) between mobile stations (MS) registered through a PSTN, an ISDN, and the like. Based on the location information of the mobile terminal provided from the base station controller 106, the mobile station performs control of location registration, change, and release of the mobile terminals, and also controls data communication and internet communication in the mobile terminal.

In addition, the location register 104 includes a home location register (HLR) and a visitor location register (VLR), which includes location information on mobility of subscribers (or mobile terminals) and additional services. And stores subscriber identity information and the like, and retrieves the request of the mobile terminal or subscriber from the mobile switching center 102 and provides the same to the mobile switching center 102.

On the other hand, the mobile switching center 102 has a plurality of base station controllers (RNC) 106 (only one base station controller is shown in FIG. 1 for convenience), and each base station controller 106 has a plurality of base stations (BS). 108/1-108 / n, and each base station (e.g., 108/1) is subject to a plurality of mobile terminals 110/1-110 / n included in the service area.

That is, each base station (BS) is in charge of the mobile communication service for each terminal in its service area, for example, various data received from the mobile terminal (MS) that requested (or requested) the service (e.g., For example, voice, text, video data, etc.) may be transmitted to the base station controller 106, and various data provided from the base station controller 106 may be wirelessly transmitted to the corresponding mobile terminal MS, and any mobile terminal MS may also be used. Provides a corresponding connection request message to the base station controller 106 when there is an Internet access service request from the mobile station. When the web site information is provided from the base station controller 106 with a call for the Internet connection, MS).

In addition, each base station (BS) detects when any mobile terminal (MS) is out of its service area and reports to the base station controller 106 in charge (ie, location change report of the mobile terminal), When a new mobile station (MS) enters its service area from another service area, it is detected and reported to the base station controller 106 (that is, the location registration report of the mobile terminal).

On the other hand, the base station controller 106 performs a function of matching between the mobile switching center 102 and the base station BS, for example, converting a 2.048 Mbps E1 signal received from the base station BS into a 155 Mbps STM-1 signal. Multiplexing is transmitted to the mobile switching center 102 through an optical cable (not shown), and the STM-1 signal provided from the mobile switching center 102 is demultiplexed into an E1 signal and transmitted to the base station BS.

In addition, the base station controller 106 connects between the Internet network and the corresponding mobile terminal (that is, the mobile terminal requesting the Internet connection) through a router when an Internet connection request message (HDLC data) is received from the base station BS, When the website information is received through the router, it is processed and delivered to the base station (BS).

On the other hand, the IMT-2000 mobile communication system having the configuration as described above is required to perform the mobile communication service when the base station (BS) equipment, the base station controller (RNC) equipment and the mobile switching center (MSC) equipment are manufactured. Various functions, such as a function of setting up and releasing a general call in the base station controller, are tested (or tested) whether or not they are normally performed. In other words, a test for the general call setup and release function in the base station controller (RNC) was carried out with a mobile communication system including a base station (BS), a base station controller (RNC) and a mobile switching center (MSC).

That is, in the related art, since each equipment (base station, base station controller, mobile switching center) had to physically interwork with each other to test general call setup and release, there is a problem that the test site is largely restricted and costs a lot of function tests. However, these problems have resulted in an increase in the burden of users (or subscribers).

Therefore, if you can test the general call setup and release at the base station controller without physically interworking each equipment, you will not only be much less constrained by the test site but also greatly reduce the time and cost of the actual interworking test. You can do it.

However, at present, there is no suggestion on how to test general call setup and release at the base station controller without physically interworking each equipment.

Accordingly, the present invention has been made in view of the above, and is a broadband that can test a general call setup in a base station controller using a base station simulator and a mobile switching center simulator without physically interworking the base station controller with other equipment. It is an object of the present invention to provide a general call setup test method in a wireless mobile station base station controller.

Another object of the present invention is to provide a general wireless broadband base station controller that can test a general call release in a base station controller using a base station simulator and a mobile switching center simulator without physically interworking the base station controller with other equipment. The purpose is to provide a method for testing call release.

In accordance with an aspect of the present invention, there is provided a broadband wireless mobile terminal for controlling a plurality of base stations that provide mobile communication services to a plurality of broadband wireless mobile stations belonging to a predetermined service area to match with a mobile switching center. A method for testing the establishment of a general call in a base station controller, wherein the main processor in the base station controller is a base station simulator that provides the same general call setup service function as each base station and a mobile that provides the same general call setup service function as the mobile switching center. Equipped with an exchange station simulator, the general call setup test method includes: a base station controller for calling a call message generated in the base station simulator in response to a command input for a general call setup including a virtual originating terminal telephone number and a virtual terminating terminal telephone number; Delivered by Part A; A second step of establishing an outgoing call through a message interface between the base station controller, the mobile switching center simulator, and the base station simulator in response to the generated call message, and allocating a channel to the virtual originating terminal; A third step of establishing an incoming call through a message interface between the base station controller and the mobile switching center simulator and the base station simulator in response to an incoming call setup message provided from the mobile switching center simulator, and allocating a channel to the virtual terminating terminal; Providing an incoming ring, ringback tone, and outgoing ring to the virtual originating terminal and the virtual terminating terminal through the message interface between the base station simulator, the base station controller, and the mobile switching center simulator, thereby bringing the virtual originating terminal and the virtual terminating terminal into a general call call state. A fourth process of connecting; And a fifth process of monitoring a process of setting up a general call set through the first to fourth processes.

In accordance with another aspect of the present invention, there is provided a broadband wireless mobile terminal configured to subordinately control a plurality of base stations each providing a mobile communication service to a plurality of broadband wireless mobile terminals belonging to a predetermined service area to match with a mobile switching center. A method for testing the release of a general call at a base station controller, wherein the main processor in the base station controller is a base station simulator providing the same general call release service function as each base station and a mobile providing the same general call release service function as the mobile switching center. Equipped with a switching center simulator, the general call release test method comprises: a first method for inputting a command for general call release in a state in which a general call is preset between a virtual originating terminal and a virtual terminating terminal by using the base station simulator and a mobile switching center simulator; process; A second step of releasing a predetermined outgoing call through a message interface between the base station simulator, a base station controller, and a mobile switching center simulator in response to the command input; A third step of releasing a preset incoming call through a message interface between the base station controller, the base station simulator, and the mobile switching center simulator based on an incoming call release message generated from the mobile switching center simulator in response to the release of the outgoing call; And a fourth process of monitoring a release process of the general call released through the first to third processes.

1 is a schematic schematic diagram of a conventional broadband wireless mobile communication system;

2 is a schematic block diagram of a base station controller (RNC) shown in FIG.

3 is a schematic block diagram of a test system suitable for testing a method of establishing and releasing a general call in a base station controller (RNC) in accordance with the present invention;

4 is a block diagram illustrating a block diagram of the RNC main processor (RMP) shown in FIG.

5 is a signal timing chart illustrating a process of testing a general call setup in a base station controller using a base station simulator and a mobile switching center simulator according to a preferred embodiment of the present invention;

6 is a signal timing chart illustrating a process of testing a general call release at a base station controller using a base station simulator and a mobile switching center simulator in accordance with a preferred embodiment of the present invention.

<Description of the code | symbol about the principal part of drawing>

302: base station simulator 304: RNC main processor

306: mobile switching center simulator 402: interface block (IB)

404: Base Station Protocol Interface Block (BPI)

406: RNC call control block (RCC) 408: RNC paging control block (RPC)

410: RNC handoff control block (RHC)

412: RNC resource management block (RRC) 414: operator interface block (MMI)

416: ATM protocol interface block (API)

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

FIG. 2 is a schematic block diagram of a base station controller (RNC) shown in FIG. 1, wherein the base station controller 106 includes a base station interface block (BSI) 202 and an interprocessor communication block (IPS). communication by SBUS (204), RNC Main Processor Block (RMP: RNC Main Processor) 206, Time Switching Board (TSB) 208, ATM Intweface Board (ATMI) 210 ) And a wireless Internet service board 212.

2, the base station interface block 202 performs a data (or message) interface between the base station controller (RNC) and the base station (BS), call processing (i.e., call establishment and release, etc.), that is, general In the processing of a call, a video call (or a multimedia call), and an Internet call, various messages generated by the base station controller (RNC) are transmitted to the base station BS shown in FIG. 1, and various messages provided from the base station BS are interleaved. Interface to processor communication block 204.

In addition, the base station interface block 202 interfaces user data (voice, text, video data, etc.) provided from the base station BS shown in FIG. 1 to the time switching board block 208 during data processing. User data provided from the time switching board block 208 is interfaced to the base station BS of FIG. Here, the time switching board block 208 is responsible for a predetermined number of subscribers, including a plurality of boards, between the base station interface block 202 and the ATM interface block 210 or the wireless Internet service block 212. Switch data.

The interprocessor communication block 204 and the RNC main processor block 206 then call processing (e.g., general call setup and teardown, multimedia, and multimedia) under control from an unshown operation / sustainment block (O & M). General operation control of the base station controller (RNC), including call setup, Internet call setup and teardown, inter-base station handoff procedure verification, and the like. Respectively provided as an interface block 210 or a wireless Internet service block 212, for this call processing operation, in particular for the process of testing the establishment and release of a general call in a base station controller (RNC) in accordance with the present invention. A detailed block configuration of 206 will be described later in detail with reference to FIG. 4.

Next, the ATM interface block 210 multiplexes (or converts) the messages and / or data provided from the interprocessor communication block 204 and / or the time switching board block 208, ie, the E1 signal, into an STM-1 signal. 1 to the mobile switching center 102 and demultiplexed the STM-1 signal (message and / or data) provided from the mobile switching center 102 into an E1 signal to transmit to the base station BS. To the inter processor communication block 204 or the switching board block 208.

On the other hand, the wireless Internet service block 212, when receiving the Internet service request message from the base station (BS), that is, the Internet service request from the RNC main processor 206 via the inter-processor communication block 204, the corresponding base station ( A channel is connected between the BS and the router (Internet call setup), and the RLP (Radio Link Protocol) is used to perform error recovery of data transmitted and received between the BS and the router.

That is, in the base station controller 106 having the configuration as described above, the base station interface block 202 ↔ inter processor communication block 204 ↔ RNC main processor block 206 ↔ ATM interface block 210 or the wireless Internet service block. A call processing such as general call setup and release, multimedia call setup, and internet call setup and teardown is performed through the signal processing path leading to 212, and the base station interface block 202 ↔ time switching board block 208 ↔ ATM Data processing in a state where a call is established is performed through a signal processing path leading to the interface block 210 or the wireless Internet service block 212.

Next, a method for testing a process of establishing and releasing a general call according to the present invention without physically interworking a base station controller (RNC) having the above-described configuration with a base station (BS) and a mobile switching center (MSC). This will be described in detail with reference to FIGS. 3 and 4.

3 is a schematic block diagram of a test system suitable for testing a method of establishing and releasing a general call in a base station controller in accordance with the present invention.

Referring to FIG. 3, a base station simulator (BS SIM) 302 and a mobile switching center simulator (MSC SIM) 306 are respectively mounted in a base station controller (RNC) to test the establishment and release of a general call according to the present invention. These simulators are not actually implemented in hardware, but are formed in software blocks and mounted on the main processor in the base station controller (RNC).

More specifically, the base station simulator 302 generates various messages that are substantially the same as the messages generated upon establishment or release of a general call in the base station BS of FIG. 1 physically connected to the base station controller RNC. According to the test operator's operation, a command for testing a general call setup provided from the outside, for example, a call setup start command, an originating terminal telephone number, a terminating terminal telephone number, and a type selection signal of an originating call (that is, a general call) may be input. When a corresponding call message (NL_ORG_MSG_IND) is generated and transmitted to the RNC main processor (RMP) in the base station controller (RNC), the called terminal page response message (NL_PAGE_RSP_MSG_IND) and the calling terminal channel assignment response message (NL_MS_ACK_ORD_IND) ) To the RNC main processor (RMP).

In addition, the base station simulator 302 performs an incoming call release request message (NL_REL_ORD_IND) and a channel traffic disconnect request message during a call release process executed in response to a command for a general call release test provided from the outside according to a test operator's operation. (STOP_TRAFFIC_IND) and the like are generated and delivered to the RNC main processor (RMP) in the base station controller (RNC).

On the other hand, the RNC main processor 304 is to perform the overall operation control of the base station controller including call processing (ie, call setup and release, etc.) based on the control from the operation / maintenance block O & M (not shown). For example, as shown in FIG. 4, an Interface Block (IB) 402, a BS Protocol Interface Block (BPI) 404, an RNC Call Control Block (RNC) 406, RNC Paging Control Block (RPC) 408, RNC Hand-off Control Block (RNC) 410, RNC Resource Control Block (RCC) 412, a man machine interface block (MMI) 414, and an ATM protocol interface block (API) 416, which are used to test the establishment and release of a general call according to the present invention. Base station simulator 302 and mobile switching center simulation Various messages for normal call setup and release between 306 and exchanges.

Referring to FIG. 4, the interface block 402 substantially performs various message interfaces between the base station interface block 202, the ATM interface block 210, and the wireless Internet service block 212, respectively, shown in FIG. In the process of testing the establishment and release of a general call according to the present invention, a message interface is performed with the base station simulator 302 shown in FIG.

In addition, the base station protocol interface block 404 and the ATM protocol interface block 416 perform a function of converting a layer 3 or more message received from a base station (BS) or a network into an internal protocol for communication with other subsystems. In particular, the ATM protocol interface block 416 performs a message interface between the base station controller (RNC) and the mobile switching center simulator 306 in the general call setup and teardown tests in accordance with the present invention.

Next, the RNC call control block 406 generates a message corresponding to the message and / or signal received from the interface block 404 or 416, so that the block, RNC paging control block 408, RNC resource management block ( 412 and the interface block 416 or 404, respectively, and perform a function for basic call processing. In addition, the RNC paging control block 408 is a block in charge of the paging function. When the paging command is received from the network (ie, the mobile switching center simulator 306), the RNC paging control block 408 starts paging to all areas of the base station controller or a specific location registration area. It determines the channel and paging group to be paged.

In addition, the RNC handoff control block 410 performs a handoff function between base stations by measuring the pilot strength when the mobile station moves after the call setup, and the RNC resource management block 412 at the time of call setup and handoff It performs radio channel assignment and release functions between the base station BS and the base station controller RNC.

On the other hand, the operator interface block 414 provides a communication window and means between the base station controller system and the operator, that is, interpreting commands input by the operator, outputting messages from the system to the operator, alerting the operator, system status and statistics such as system configuration. And a function of graphically outputting periodic reports.

In FIG. 4, the Internet Service Handling Block (ISH) 418 is a software block that is substantially mounted in the wireless Internet service block 212 shown in FIG. 2, from any mobile terminal. When there is a request for a wireless Internet service from the base station according to the request, it performs a function of providing a wireless Internet service through a connection with a router not shown.

Referring again to FIG. 3, the mobile switching center simulator 306 is substantially identical to the messages that occur in the process of establishing or releasing a general call at the mobile switching center (MSC) of FIG. 1 that is physically connected to the base station controller (RNC). Paging request message (PAGING_REQ), call processing message (CALL_PROCEEDING), incoming call setup message (SETUP), outgoing channel assignment request message (ASSIGNMENT_REQ) when generating various messages, that is, during call processing for general call setup test according to the present invention. Generate various messages such as REL), RELEASE, and RELEASE completion response message during call processing for a general call release test according to the present invention. COMPLETE is generated and delivered to the RNC main processor (RMP) in the base station controller (RNC).

Next, the base station controller (RNC) in the state without physically interworking the base station controller (RNC) with the base station (BS) and the mobile switching center (MSC) in accordance with the present invention using a test system having the configuration as described above. The process of testing the general call establishment and release will be described in detail with reference to Figs. 5 and 6, which show the signal timing charts.

5 is a signal timing chart illustrating a process of testing a general call setup in a base station controller using a base station simulator and a mobile switching center simulator in accordance with a preferred embodiment of the present invention.

Referring to FIG. 5, a test operator with a base station simulator 302 and a mobile switching center simulator 306 mounted on an RNC main processor 304 in a base station controller (RNC) to test a general call setup according to the present invention. When a command for general call setup, that is, a call setup start command, an outgoing terminal telephone number, a called terminal telephone number, and an outgoing call type selection signal (that is, a general call) is inputted, the base station simulator 302 shown in FIG. And a call message (NL_ORG_MSG_IND) including the called subscriber information is generated and delivered to the base station controller (RNC). Accordingly, the base station controller (RNC) sends a call attempt request message (CM_SERVICE_REQ) through the signal processing path via the IB 402 → BPI 404 → RCC 406 → API 416 in the RNC main processor 304. It is generated and delivered to the mobile switching center simulator 306.

At this time, the mobile switching center simulator 306 generates a call attempt response message (CM_SERVICE_RSP) indicating that the call connection is possible when the call attempt request message (CM_SERVICE_REQ) is received and transmits it to the base station controller (RNC). ) Generates an outgoing call setup message (SETUP) containing information about the ATM cell via the signal processing path via the RCC 406-&gt; API 416 in the RNC main processor 304 to generate a mobile switching center simulator 306. In response, the mobile switching center simulator 306 generates a call processing message CALL_PROCEEDING in response to the call processing message, that is, the call setup message SETUP described above, and transmits the generated call processing message CALL_PROCEEDING to the base station controller RNC. .

Subsequently, the mobile switching center simulator 306 generates and sends a paging request message PAGING_REQ to the called party to the base station controller RNC. The base station controller RNC generates an API (in the RNC main processor 304). 416) a base station simulator by generating a destination terminal page request message (NL_PAGE_REQ) requesting a call connection to the terminal via a signal processing path via the RCC 406 → RPC 408 → BPI 404 → IB 402. 302, and in response, the base station simulator 302 generates a destination terminal page response message (NL_PAGE_RSP_MSG_IND) in response to the call connection request and transmits it to the base station controller (RNC).

Next, in the base station controller (RNC), in response to receiving the called terminal page response message (NL_PAGE_RSP_MSG_IND), IB 402 → BPI 404 → RPC 408 → RCC 406 in the RNC main processor 304. → a page response message (PAGE_RESPONSE) is generated and forwarded to the mobile switching center simulator 306 via a signaling path via the API 416, where the calling channel responds to the page response message (PAGE_RESPONSE) in the outgoing channel. The assignment request message ASSIGNMENT_REQ is generated and forwarded to the base station controller RNC.

In addition, in the base station controller (RNC), the API 416 → RCC 406 → RRC 412 → BPI 404 → IB (in the RNC main processor 304) based on the outgoing channel assignment request message ASSIGNMENT_REQ. A source terminal channel assignment request message (NL_CH_ASSGN_REQ) is generated and transmitted to the base station simulator 302 through a signal processing path via 402. A source terminal channel assignment response message (NL_MS_ACK_ORD_IND) is generated and transmitted to the base station controller (RNC) indicating that the channel has been allocated to the source terminal. ) Generates an outgoing channel assignment complete message (ASSIGNMENT_COMP) via the signaling process path via RRC 412 → RCC 406 → API 416 and forwards it to mobile switching center simulator 306.

Subsequently, the mobile switching center simulator 306 generates an incoming call setup message SETUP for setting up a called party and transmits it to the base station controller RNC, and the base station controller RNC performs a call processing message, that is, the above-mentioned incoming call setup. In response to the message SETUP, an incoming call processing message CALL_PROCEEDING is generated to the mobile switching center simulator 306 via a signal processing path via the RCC 406-&gt; API 416 in the RNC main processor 304. To pass.

Next, the mobile switching center simulator 306 generates and transmits an incoming channel assignment request message ASSIGNMENT_REQ to the base station controller RNC, and in the base station controller RNC, the API 416 → RCC (in the RNC main processor 304). 406) RRC 412 → BPI 404 → IB 402 generates a destination terminal channel assignment request message (NL_CH_ASSGN_REQ) via a signal processing path, and transmits it to the base station simulator 302, and the base station simulator 302 ), When the called terminal channel allocation request message NL_CH_ASSGN_REQ is received, generates a called terminal channel assignment response message NL_MS_ACK_ORD_IND indicating that the channel is allocated to the called terminal and transmits it to the base station controller RNC.

The base station controller (RNC) then receives the incoming channel via a signal processing path via IB 402 → BPI 404 → RRC 412 → RCC 406 → API 416 in the RNC main processor 304. Generates an assignment completion message (ASSIGNMENT_COMP) and sends it to the mobile switching center simulator 306, and the incoming ring through the signal processing path via the RCC 406 → BPI 404 → IB 402 in the RNC main processor 304. Generates an incoming ring request message (NL_ALERT_REQ) to send to the base station simulator 302, and also the incoming ring via the signal processing path via the RCC 406 → API 416 in the RNC main processor 304. Generates an incoming ring notification message (ALERTING) informing that it has requested and forwards it to the mobile switching center simulator (306).

On the other hand, the mobile switching center simulator 306 generates a ringback tone message (ALERTING) indicating that an incoming ring is requested and transmits it to the base station controller (RNC), and in response, the base station controller (RNC) transmits an API in the RNC main processor 304. 416 generates an outgoing ring request message (NL_ALERT_REQ) via the signal processing path via RCC 406 → BPI 404 → IB 402 and forwards it to base station simulator 302.

On the other hand, the base station simulator 302 generates and transmits an incoming connection response message (NL_CONNECT_ORD_IND) to the base station controller (RNC) informing that the called party has received the call. In response, the base station controller (RNC) receives the RNC main processor 304. Generate an Incoming Connection Notification Message (CONNECT) informing the incoming response via the signaling processing path via My IB 402 → BPI 404 → RCC 406 → API 416 and forwarding it to mobile switching center simulator 306. The mobile switching center simulator 306 generates an incoming connection notification acknowledgment message CONNECT_ACK indicating that the incoming connection has been notified, and delivers it to the base station controller RNC.

In addition, the mobile switching center simulator 306 generates an outgoing connection notification message CONNECT and transmits it to the base station controller RNC to notify the calling party of the incoming response, and the base station controller RNC API in the RNC main processor 304. 416 → RCC 406 → BPI 404 → IB 402 generates an outgoing connection request message (NL_CONNECT_REQ) that notifies the originating terminal of the incoming response via the signal processing path to the base station simulator 302. In addition, an outgoing connection notification acknowledgment message (CONNECT_ACK) is generated to inform the mobile switching center simulator 306 that the outgoing connection has been notified.

Therefore, whether the general call is properly set up between any virtual originating terminal and the virtual terminating terminal using the base station simulator and the mobile switching center without physically interworking the base station controller with the base station and the mobile switching center through the above-described process. Can be tested.

On the other hand, the test operator can monitor the test setup of the general call through a monitor provided in the workstation (not shown) connected to the test system, and if necessary, the test operator can monitor various messages generated during the process of setting up the general call using a printer. It is also possible to output the result data for generation.

Therefore, when an error occurs during the establishment of a general call, the test operator can easily know at what stage and for what reason, and when the error occurs, the error can be reliably analyzed and healed.

Next, a method of testing the release of a general call set up using a base station simulator and a mobile switching center simulator according to the present invention will be described.

6 is a signal timing chart illustrating a process of testing a general call release at a base station controller using a base station simulator and a mobile switching center simulator in accordance with a preferred embodiment of the present invention.

Referring to FIG. 6, an instruction (end command) for a test operator to release a call to test whether the release of the general call is properly performed in the state of setting up the general call using the base station simulator and the mobile switching center simulator according to the present invention. ), The base station simulator 302 shown in FIG. 3 generates and transmits the corresponding outgoing call release request message NL_REL_ORD_IND to the base station controller RNC.

Next, the base station controller (RNC) determines the calling party set in the corresponding terminal through the signal processing path via the IB 402 → BPI 404 → RCC 406 → API 416 in the RNC main processor 304. An outgoing call release complete message (RELEASE COMPLETE) is generated to inform the mobile switching center simulator 306 of generating an outgoing call release message (RELEASE) to release the call. It generates and delivers to the base station controller (RNC). Accordingly, the call set to any terminal (virtual terminal) is released under the control of the base station controller (RNC), that is, the call resources of the wired and wireless are released.

In addition, the mobile switching center simulator 306 generates an incoming call release message RELEASE for releasing the set called party and transmits it to the base station controller RNC. In response, the base station controller RNC main processor 304 The base station simulator 302 generates an incoming call release request message (NL_REL_ORD_REQ) via a signal processing path via the API (416) → RCC 406 → RRC 412 → BPI 404 → IB 402. To pass.

Next, the base station simulator 302 generates an incoming call release response message (NL_REL_ORD_IND) indicating that the called party has released the call in response to the incoming call release request message (NL_REL_ORD_REQ), and delivers it to the base station controller (RNC), followed by a channel. A channel traffic truncation request message (STOP_TRAFFIC_IND) is generated to cut the traffic of the traffic and transmitted to the base station controller (RNC).

Subsequently, when the channel traffic truncation request message STOP_TRAFFIC_IND is received from the base station simulator 302, the base station controller (RNC) receives the IB 402 → BPI 404 → RCC 406 → API (in the RNC main processor 304). By generating the RELEASE COMPLETE message to the mobile switching center simulator 306 through the signal processing path via 416, the general call set between any virtual originating terminal and the virtual terminating terminal is released, i.e., Radio call resources are released.

Therefore, whether or not the general call set up between any virtual originating terminal and the virtual terminating terminal is properly released using the base station simulator and the mobile switching center without physically interworking the base station controller with the base station and the mobile switching center through the process described above. Can be tested.

On the other hand, the test operator can monitor the test release of the set general call through a monitor provided in a workstation (not shown) connected to the test system, and if necessary, the test operator may monitor It is also possible to output the result data for the generation of a message.

Therefore, when an error occurs during the release of the established general call, the test operator can easily know at what stage and for what reason, and when the error occurs, the cause can be reliably analyzed and healed.

As described above, according to the present invention, unlike the above-described conventional method of testing the establishment and release of a general call with physically interlocking each equipment (base station, base station controller, mobile switching center), the base station controller is moved from the base station to the mobile station. Because it is possible to simply test the establishment and release of a general call by using the base station simulator and the mobile station simulator without physically interworking with the switching center, the time and cost of testing the general call establishment and release at the base station controller is greatly reduced. Can be reduced. In addition, the present invention can effectively suppress the test site constraints required for testing general call setup and release at the base station controller.

Claims (9)

In the method of testing the setting of a general call in a broadband wireless mobile terminal base station controller that slavely controls a plurality of base stations each providing a mobile communication service to a plurality of broadband wireless mobile terminals belonging to a predetermined service area to match with the mobile switching center. The main processor in the base station controller is equipped with a base station simulator that provides the same general call setup service function as each base station and a mobile switching center simulator that provides the same general call setup service function as the mobile switching center. The general call setup test method is: A first step of transmitting a call message generated by the base station simulator to the base station controller in response to a command input for setting up a general call including a virtual calling terminal number and a virtual called terminal number; A second step of establishing an outgoing call through a message interface between the base station controller, the mobile switching center simulator, and the base station simulator in response to the generated call message, and allocating a channel to the virtual originating terminal; A third step of establishing an incoming call through a message interface between the base station controller and the mobile switching center simulator and the base station simulator in response to an incoming call setup message provided from the mobile switching center simulator, and allocating a channel to the virtual terminating terminal; Providing an incoming ring, ringback tone, and outgoing ring to the virtual originating terminal and the virtual terminating terminal through the message interface between the base station simulator, the base station controller, and the mobile switching center simulator, thereby bringing the virtual originating terminal and the virtual terminating terminal into a general call call state. A fourth process of connecting; And And a fifth step of monitoring a step of setting up a general call set through the first to fourth steps. The method of claim 1, wherein the general call setup test method further comprises the step of printing and outputting the result data of the general call setup process according to an operator's operation. Set up test method. The method of claim 1 or 2, wherein the second process is: Transmitting a call attempt request message generated by the base station controller in response to the call message to the mobile switching center simulator; Transferring a call attempt response message generated in the mobile switching center simulator to the base station controller in response to the call attempt request message; Transmitting an originating call setup message generated at the base station controller to the mobile switching center simulator in response to the call attempt response message; Transmitting an outgoing call processing message generated in the mobile switching center simulator to the base station controller in response to the outgoing call setup message; Delivering a paging request message generated in the mobile switching center simulator to the base station controller; Delivering a called terminal page request message generated by the base station controller in response to the paging request message to the base station simulator; Transferring a called terminal page response message generated in the base station simulator to the base station controller in response to the called terminal page request message; Transferring a page response message generated by the base station controller in response to the called terminal page response message to the mobile switching center simulator; Transmitting an outgoing channel assignment request message generated in the mobile switching center simulator to the base station controller; Transmitting an originating terminal channel allocation request message generated by the base station controller in response to the originating channel allocation request message to the base station simulator; Transmitting an originating terminal channel assignment response message generated in the base station simulator to the base station controller in response to the originating terminal channel allocation request message; And And transmitting the outgoing channel assignment complete message generated by the base station controller to the mobile switching center simulator in response to the outgoing terminal channel assignment response message. . The method of claim 1 or 2, wherein the third process comprises: Transmitting an incoming call processing message generated by the base station controller in response to the incoming call setup message to the mobile switching center simulator; Transmitting an incoming channel allocation request message generated in the mobile switching center simulator in response to the incoming call processing message to the base station controller; Transferring a called terminal channel assignment request message generated by the base station controller in response to the called channel assignment request message to the base station simulator; Transferring a called terminal channel assignment response message generated in the base station simulator to the base station controller in response to the called terminal channel assignment request message; And And a method for transmitting a terminating channel allocation complete message generated by the base station controller in response to the terminating terminal channel allocation response message to the mobile switching center simulator. . The method of claim 1 or 2, wherein the fourth process comprises: Transferring a ringing request message generated by the base station controller to the base station simulator; Transmitting a ringing notification message generated at the base station controller to the mobile switching center simulator; Transmitting a ring back tone message generated by the mobile switching center simulator to the base station controller in response to the incoming ring notification message; Transmitting an outgoing ring request message generated by the base station controller in response to the ring back tone message to the base station simulator; Transferring an incoming connection response message generated by the base station simulator to the base station controller; Transmitting an incoming access notification message generated by the base station controller in response to the incoming access response message to the mobile switching center simulator; Transmitting an incoming access notification confirmation message generated in the mobile switching center simulator in response to the incoming access notification message to the base station controller; Transmitting an outgoing access notification message generated in the mobile switching center simulator to the base station controller; Transmitting an outgoing access request message generated by the base station controller in response to the outgoing access notification message to the base station simulator; And And transmitting the outgoing access notification confirmation message generated by the base station controller to the mobile switching center simulator. A method for testing the release of a general call in a wideband wireless mobile station base station controller for controlling a plurality of base stations each providing a mobile communication service to a plurality of broadband wireless mobile stations belonging to a predetermined service area to match with the mobile switching center, The main processor in the base station controller is equipped with a base station simulator that provides the same general call release service function as each base station and a mobile switching center simulator that provides the same general call release service function as the mobile switching center. The general call release test method is: A first step of inputting a command for releasing the general call in a state where a general call is preset between a virtual originating terminal and a virtual terminating terminal by using the base station simulator and the mobile switching center simulator; A second step of releasing a predetermined outgoing call through a message interface between the base station simulator, a base station controller, and a mobile switching center simulator in response to the command input; A third step of releasing a preset incoming call through a message interface between the base station controller, the base station simulator, and the mobile switching center simulator based on an incoming call release message generated from the mobile switching center simulator in response to the release of the outgoing call; And And a fourth process for monitoring a release process of the general call released through the first to third processes. The general call release test method of claim 6, further comprising: printing and outputting result data of the release process of the general call according to an operator's operation. Test method to release. 8. The method of claim 6 or 7, wherein the second process is: Transmitting an outgoing call release request message generated in the base station simulator to the base station controller based on the command input; Transmitting an outgoing call release message generated by the base station controller in response to the outgoing call release request message to the mobile switching center simulator; And And transmitting the originating call release completion message generated by the mobile switching center simulator to the base station controller in response to the originating call release message. 8. The method of claim 6 or 7, wherein the third process is: Delivering the generated call release message to the base station controller; Transmitting an incoming call release request message generated by the base station controller in response to the incoming call release message to the base station simulator; Transmitting an incoming call release response message generated in the base station simulator in response to the incoming call release request message to the base station controller; Transmitting a channel traffic truncation request message generated in the base station simulator to the base station controller; And And forwarding the incoming call release completion message generated by the base station controller to the mobile switching center simulator in response to the channel traffic truncation request message.