KR100260401B1 - Method for testing voice quality of vocoder in mobile switching center - Google Patents

Abstract

The present invention forms a path between the vocoder of the control station and the switching station and tests the performance of the vocoder at the switching station through the formed path, thereby accurately grasping the performance of the vocoder while the call is connected, thereby improving the quality of service. The present invention relates to a performance test method, and the present invention relates to a sound quality test unit (VQTU) connected to a trunk corresponding to a vocoder to be tested when a vocoder performance test request is received from the control station. Establish a path between sound quality test sections. The sound quality test unit performs the performance test of the vocoder through the thus formed path, and the exchange transmits the result to the control station. In this way, the performance of the vocoder in the actual communication service can be grasped to provide an improved service to the subscriber.

Description

Vocoder performance test method of mobile communication exchange

The present invention relates to a vocoder in a mobile communication system such as a cellular control system (DCS) and a personal communication system (PCS) using a code division multiple access (CDMA) scheme. The present invention relates to a method for testing the performance of a vocoder, and more particularly, to a method for testing the vocoder performance of a mobile communication switchboard by testing the performance of a vocoder by forming a communication path between a control station and an exchange.

In general, a mobile communication system is a communication system that enables a mobile station to receive a communication service while moving.

In such a mobile communication system, when a subscriber call is made or an incoming call is attempted, each trunk is allocated one trunk connected to the exchange and the control station. Thus, each call exchanges voice data through the assigned trunk. The control station also has a vocoder that compresses or decompresses the voice data, and the channel of the vocoder corresponds one-to-one with the trunk of the exchange period with the control station.

The vocoder of such a control station is tested to determine whether the vocoder is operating normally and how the vocoder is performing.

Thus, to test the performance of the vocoder, the control station performs a path test (loop_back test) after setting the path of the voice data through the vocoder inside the control station.

That is, after transmitting data through a path set therein, the data looped back along the set path is received, and the performance of the vocoder is tested by comparing the transmission data with the received data.

In this method, the vocoder performance test method of the conventional mobile communication system establishes a loopback path through the vocoder inside the control station, and then tests the performance of the vocoder through this path. Since this is not done in the state, there is a difference between the performance of the vocoder tested through the setting path inside the control station and the performance of the vocoder operating in the state where the actual call is connected.

That is, even if it is determined that the performance of the vocoder tested through the setting path inside the control station can serve the subscriber with sound quality in good condition, the sound quality serviced to the subscriber in the actual call connection state may not be good.

Since the vocoder performance test method of the conventional mobile communication system cannot accurately test the performance of the vocoder, it is difficult to accurately determine whether the vocoder operates normally, and there is a concern that the sound quality serviced to the subscriber may be degraded.

Accordingly, the present invention has been proposed to solve the above-mentioned conventional problems, and an object of the present invention is to form a communication path between a control station and an exchange station and perform a performance test on the vocoder located on the formed communication path at the exchange station. The present invention provides a method of testing a vocoder performance of a mobile communication exchange that accurately grasps the performance of a vocoder operated in a communication service and provides a service with improved sound quality.

Vocoder performance test method of a mobile communication switch according to the present invention in order to achieve the above object,

A state changing step of changing the state of the sound quality test unit VQTU and the state of the trunk to be tested to the test state when the main processor ASP is requested to perform a performance test from the control station; If the main processor (ASP) requests the switch to be connected to the time switch unit after the state change, the time switch unit checks which one of the plurality of time switches in the time switch unit is matched with the trunk to be tested. A route setting step of setting a route according to the position of the position; A test instruction step of instructing an ASP to perform a performance test to the VQTU when a path is established between the trunk and the sound quality test unit (VQTU); Upon receiving the test completion interrupt from the instructed VQTU, the ASP reads the vocoder's performance test result from the VQTU and reports it to the control station, and then idles the state of the VQTU and the state of the trunk to be tested. It is characterized by its methodological configuration to carry out the test result reporting step which is changed to.

1 is a block diagram of an exchange station to which the present invention is applied;

2A is a structural diagram of a path set when a trunk receiving a sound quality test request is connected to a first time switch;

2B is a structural diagram of a route established when a trunk receiving a sound quality test request is connected to a second time switch;

3 is a message processing flowchart between a control station and an exchange station;

4A and 4B are flowcharts illustrating a vocoder performance test method of a mobile communication switch according to the present invention.

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

10: control station 20: switching station

30: main processor 40: time switch unit

50: sound quality test part 60: ASMP

70: alarm processing unit 80: space switch

First, in order to accurately test the performance of a vocoder operated in a voice service to a subscriber, a test function for data transmitted / received while connecting a communication path between a control station and an exchange station is required. Thus, the Voice Quality Test Unit (abbreviated as "VQTU") is connected on a call path formed between a control station and an exchange station, and the sound quality test unit tests the performance of a specific vocoder to be tested. .

One VQTU is installed in each switch access processor (abbreviated as "ASP") in the switching center, and exchanges test commands and test results with the control station through Inter Processor Communication (IPC). .

1 is a block diagram of a mobile communication system switching center to which the present invention is applied.

As shown therein, the main processor 30 controls the performance test operation to be performed when a performance test of a specific vocoder is required from the control station 10 and transmits a test result to the control station 10 when the test is completed. ; A time switch unit (40) for connecting the trunk of the control station (10) to be tested and the path of the sound quality test unit (VQTU) 50 under the control of the main processor 30; A sound quality test unit (VQTU) 50 for performing a performance test of the vocoder of the control station 10 under the control of the switch access maintenance processor 60 when the connection with the time switch unit 40 is established; An alarm processing unit (70) for processing an alarm for the VQTU (50); An access switch maintenance processor (ASMP) 60 that manages the state of the VQTU 50 and controls the VQTU 50 to perform a test operation according to the control of the main processor 30. It is composed.

The VQTU 50 and the ASMP 60 are matched by a TD-BUS (Telephony Device BUS), and the VQTU 50 and the time switch unit 40 are connected by a subhighway (Pulse Code). Modulation) Send and receive data, clock (4.096MHz) and frame sync signal (8KHz).

In addition, the vocoder performance test apparatus includes a space switch 80 between the time switch unit 40 and the VQTU 50 so that the trunk to be tested is connected to the VQTU 50 through the time switch unit 40. If not, the trunk is connected to the VQTU 50 via the space switch 80.

The time switch unit 40 is configured to include first and second time switches 41 and 42 that exchange signals from the control station 10 in time, respectively.

The first time switch 41 is a junk connecting the path of the space switch 80 and the VQTU 50 so that a trunk matched with the second time switch 42 can be connected to the VQTU 50. It includes a junction 41a.

4A and 4B are flowcharts illustrating a vocoder performance test method of a mobile communication switch according to the present invention.

As shown in the figure, first, when the performance test is required from the control station 10 to the main processor 30 of the switching center 20, the main processor 30 is connected to the state of the sound quality test unit (VQTU) 50. A state change step (ST11-ST15) of changing the state of the trunk to be tested to the test state is performed. After performing the state change step (ST11-ST15), if the main processor 30 requests the switch to the time switch unit 40, the time switch unit 40 is the trunk of the time switch unit 40 After checking which time switch is matched, a path setting step (ST16-ST18) of setting a path according to the position of the matching time switch of the trunk is performed. When the path setting step (ST16-ST18) is performed to form a path between the trunk and the VQTU (50), a test instruction step (ST19-ST20) instructing the main processor 30 to perform the performance test to the VQTU (50) ). After receiving the test completion interrupt from the VQTU (50) received the instruction, after reading the performance test results of the vocoder from the VQTU (50) and reporting to the control station 10, and the state of the VQTU (50) A test result reporting step (ST21-ST27) of changing a state of a trunk to be tested to an idle state is performed.

In the state change step (ST11-ST15), if the main processor 30 of the switching center 20 is required to perform the performance test of the vocoder from the control station 10, by checking whether the state of the VQTU (50) is idle state In the idle state, checking the state of the trunk to be tested for performance (ST11-ST12), and if the state of the trunk to be tested is in the idle state, the state of the VQTU 50 and the state of the trunk are tested. Each of the steps ST13-ST15 is performed.

In the path setting step ST16-ST18, when the main processor 30 requests a switch connection from the main processor 30 to the time switch part 40 after performing the state change step ST11-ST15, the time switch part 40 performs a performance test. Checking whether the trunk is matched to which time switch of the time switch unit 40 (ST16), and if the trunk to be tested is not matched to the time switch on which the VQTU 50 is mounted, bidirectionally A path is formed between the trunk and the VQTU 50 using a space switch for configuring a call path, and if the trunk to be tested is matched to a time switch mounted with the VQTU 50, the trunk and the VQTU 50 are connected to each other. Steps ST17 to ST18 are formed.

In the test instruction step ST19-ST20, if a path is established between the trunk and the VQTU 50, the main processor 30 requests a performance test to be performed by the switch access maintenance processor (ASMP) 60 ( ST19) and the ASMP 60 having received the performance test request, instructs the VQTU 50 of the vocoder's performance test, and then waits for a test completion interrupt from the VQTU 50 (ST20). .

In the test result reporting step ST21-ST27, when a predetermined time elapses after the test instruction step ST19-ST20 or when a test completion interrupt from the VQTU 50 is received, the ASMP 60 receives the VQTU 50. Step (ST21-ST22) of reading the performance test performance results of the vocoder from (), and reporting performance test performance results read from the VQTU (50) to the main processor (ST23) and In step ST24, the main processor 30 checks the number of performance test requests of the vocoder and repeats the test result reporting steps ST21-ST27 by the number of test requests, and when the required performance test is completed, the space switch Disconnecting the time switch 80 from the time switch ST25-ST26, and changing the state of the VQTU 50 and the tested trunk to the idle state ST27.

The vocoder performance test method of the mobile communication switch according to the present invention configured as described above will be described in detail with reference to the accompanying drawings.

First, the control station 10 requests the switching station 20 to test the performance of a particular vocoder in order to test the performance of the vocoder when the actual call is connected to provide a service to the subscriber.

An access switch processor (ASP) 30 of the switching center 20 includes a trunk line test (hereinafter, abbreviated as "TLT"), which is a TLT from the control station 10. Upon receiving the vocoder performance test request (ST11), as shown in FIG. 3, the TLT checks the state of the VQTU 50 and the state of the ASMP 60 (ST12). So if the VQTU 50 is idle, the TLT checks the state of the trunk (bs_trk) to test.

In this case, the trunk is a trunk between the control station 10 and the switching center 20. Since the trunk is allocated in a one-to-one correspondence with the vocoder of the control station 10, the ASP 30 performs the performance of a specific vocoder of the control station 10. To test this, we first check the state of the trunk corresponding to this particular vocoder.

Thus, if the trunk corresponding to the vocoder to be tested, that is, the trunk to be tested is found to be in an idle state, the TLT changes the state of the VQTU 50 and the state of the trunk to the test state, respectively (ST11-ST15). ). Thus, the VQTU 50, which tests the performance of the vocoder in the control station 10 and its trunk, cannot be occupied simultaneously by other processors of the switching center 20.

The main processor (ASP) 30 prepares a performance test by changing the state of the VQTU 50 and the trunk to a test state, and then requests a switch connection to the TLI of the time switch unit 40.

Although not shown in FIG. 1, the TLI is located at an upper layer of the time switch unit 40 and controls the connection of the trunk connected to the control station 10 with the VQTU 50. FIG. The time switch unit 40 then connects the paths under the control of the upper layer TLI.

When the TLT of the ASP 30 requests the switch connection to the TLI of the time switch unit 40, the TLI checks which time switch of the time switch unit 40 matches the trunk to be tested (ST16).

Here, the time switch unit 40 includes two time switches as the service capacity of the switching center 20 increases. The VQTU 50 is connected to one of the two time switches 41 and 42. 2A and 2B show a connection state of the time switch unit 40 when the VQTU 50 is connected to the first time switch 41 as a subhighway.

That is, if the trunk to be tested is matched with the first time switch 41, the TLI forms a path between the trunk and the VQTU 50 by connecting only the first time switch 41 (ST17-ST18).

Also, if the trunk to be tested is matched with the second time switch 42, the TLI connects the spatial switch 80 to the VQTU 50 to form a two-way call path. That is, as shown in FIG. 2B, the TLI forms a path between the space switch 80 and the VQTU 50 by using the junker 41a included in the first time switch 41 (ST17). Thereafter, the TLI connects the space switch 80 and the second time switch 42 (ST18).

When a path is established between the trunk to be tested and the VQTU 50, the TLT of the ASP 30 requires the start of the test execution of the VQTU 50 to the Access Switch Maintenance Interface (ASMI). This ASMI is located in the upper layer of the ASMP (60) to match the ASP (30) and ASMP (60). If such an ASMI is required to start testing the VQTU 50 from the TLT, the ASMI forwards this request to the ASMP 60, which instructs the VQTU 50 to perform the vocoder's performance test. ST19). The ASMP 60 waits for a test completion interrupt from the VQTU 50 after driving the timer (ST20).

The VQTU 50 having received the test start instruction from the ASMP 60 transmits and receives the test data through the path set between the specific vocoder of the control station 10 and the VQTU 50 of the switching station 20. Thus, the VQTU 50 compares the data transmitted to the vocoder of the control station 10 with the received data returned through the path set between the vocoder and the VQTU 50 of the switching station 20 to test the sound quality performance of the vocoder. Thus, it is checked whether the sound quality provided to the subscriber while the call is connected or whether the vocoder operates normally. And when a new technology related to vocoder is introduced, the technology is verified.

When the test for this vocoder is completed, the VQTU 50 generates an interrupt to the ASMP 60.

When a predetermined time elapsed by the system operator after the timer runs, or when the test completion interrupt is received from the VQTU 50, the ASMP 60 reads the performance test result of the vocoder from the VQTU 50 (ST21-). ST22). The ASMI reports the read test result to the TLT, and the TLT transmits the reported test result to the control station 10 again (ST23).

The TLT checks the number of performance test requests of the vocoder required from the control station 10, and repeats the performance test operation of the vocoder by the required number of performance test times (ST24). When the TLT receives the test result of the VQTU 50 from the ASMI, the TLT transmits the test result to the control station 10 in real time.

Thus, when the performance test of the vocoder is completed by the required number of performance test requests from the control station 10, the TLT requests the TLI to disconnect the tested trunk. The TLI then disconnects the first time switch 41 if the trunk tested is a trunk matched with the first time switch 41. In addition, if the trunk tested is the trunk matched with the second time switch 42, the connection between the junker 41a, the space switch 80 and the second time switch 42 is released (ST26).

When the performance test of the vocoder is completed in this way, the TLT changes the state of the VQTU 50 and the trunk in the test state to the idle state and ends the performance test of the VQTU 50 (ST27).

In this way, the VQTU that tests the vocoder's performance is mounted at the switching center, and the VQTU and the specific vocoder of the control station are connected to perform the vocoder's performance test at the VQTU to identify abnormally operated vocoder and accurately identify the vocoder's performance. This will improve the quality of service provided to subscribers.

As described above, the vocoder performance test method of the mobile communication switch according to the present invention forms a path between the vocoder of the control station and the switching station and tests the performance of the vocoder at the switching station through the formed path, thereby establishing a call and communicating with the subscriber. There is an effect that can grasp the actual performance of the vocoder operating in service.

Since the actual performance of the vocoder operated by the call connection can be grasped, the service quality can be improved.

In addition, by checking whether or not the vocoder operates normally, it is possible to screen abnormal vocoder, thereby improving the reliability of the service.

Claims (5)

In the method for testing the performance of the vocoder mounted in the control station of the mobile communication system, A state changing step of changing the state of the sound quality test unit VQTU and the state of the trunk to be tested to the test state when the main processor ASP is requested to perform a performance test from the control station; If the main processor (ASP) requests the switch to be connected to the time switch unit after the state change, the time switch unit checks which one of the plurality of time switches in the time switch unit is matched with the trunk to be tested. A route setting step of setting a route according to the position of the position; A test instruction step of instructing an ASP to perform a performance test to the VQTU when a path is established between the trunk and the sound quality test unit (VQTU); Upon receiving the test completion interrupt from the instructed VQTU, the ASP reads the vocoder's performance test result from the VQTU and reports it to the control station, and then idles the state of the VQTU and the state of the trunk to be tested. A test result reporting method of a mobile communication switch, characterized in that for performing a test result reporting step of changing to. The method of claim 1, wherein the state change step comprises: If the ASP is required to perform the performance test of the vocoder from the control station, checking whether the state of the VQTU is idle and checking the state of the trunk to be tested if the state is idle. If is in the idle state, performing the step of changing the state of the VQTU and the state of the trunk to the test state, respectively, characterized in that performing the vocoder performance test method of the mobile communication switch. The method of claim 1, wherein the path setting step, After performing the state change step, when the ASP requests the switch to connect to the time switch unit, the time switch unit checks which time switch the trunk to be tested for performance matches with, and as a result of the inspection, the trunk to be tested If the VQTU is not matched with the mounted time switch, a path is formed between the trunk and the VQTU using a space switch for configuring a two-way call, and if the trunk to be tested is matched with the time switch equipped with the VQTU, A method for testing the vocoder performance of a mobile communication switch, characterized in that the step of forming a path between the trunk and the VQTU. The method of claim 1, wherein the test indication step, If a path is established between the trunk and the VQTU, the ASP requests a performance test to be performed by a switch access maintenance processor (ASMP), and after receiving the performance test, the ASMP instructs the VQTU to perform a performance test of the vocoder. A method for testing the vocoder performance of a mobile communication switch, comprising the step of waiting for a test completion interrupt from a VQTU. The method of claim 1, wherein the reporting of the test result comprises: reading a result of performing a vocoder's performance test from the VQTU when a predetermined time elapses after the test indicating step or receiving a test completion interrupt from the VQTU. And reporting, by the ASMP, the performance test performance result read from the VQTU to the ASP; and checking, by the ASP, the number of test request requests of the vocoder and repeating the test result reporting step by the number of test requests. When the performance test is completed, disconnecting the space switch and the time switch, and changing the state of the VQTU and the tested trunk to an idle state.