KR100301857B1 - Method of Testing Speech Path in the Mobile Communication System - Google Patents

Abstract

The present invention uses a VoQder (Vocoder Quality Test Unit) to test the mobile communication system from the furthest section from the farthest section, and to make it possible to accurately and quickly analyze the normality of each section of the call section The present invention relates to a test method of a currency of a communication system. According to an exemplary embodiment of the present invention, a method for testing a call path in a mobile communication system may include: setting a test path test section and a loop; Using a loopback of any pulse code modulation (PCM) signal generated by the sound quality measurement equipment from the test interval with the farthest call from the sound quality measurement equipment, and the normality of the test interval according to the loopback test signal. Determining whether or not, and testing a next test section in another currency or the currency being tested according to the determined result.

Description

Method of Testing Speech Path in the Mobile Communication System}

The present invention relates to a test path test method of a mobile communication system, and in particular, a test path of a mobile communication system using a VQTU (Vocoder Quality Test Unit) from the furthest section to test each section and device of the call path. The present invention relates to a method for testing the channel of a mobile communication system so that it can be analyzed accurately and quickly.

The method for testing the channel of a conventional communication system consists of a channel test, a Vocoder test, and a Bit Error Rate (BER) test.

The call path test is a PCM (Pulse Code Modulation) signal and packet data loopback test that loopbacks the signal from the vocoder while the call is set up so that a person can hear it directly. Is done.

Vocoder test is a vocoder hardware test that reads and writes the vocoder's ROM, RAM, and arithmetic logic unit (ALU) to check the normality of each device component and hardware. A timing module test to check whether the clock required for the operation of the vocoder configured in the selector & vocoder card is normally applied, and a normal PCM signal path between the vocoder and the exchange. It consists of a Time Switch Link Unit (TSLU) loopback test to check whether it is possible and a QCELP algorithm test to check whether the vocoder status transition is normal.

The bit error rate test is a test for checking the bit error rate by pattern matching the data and the bit pattern looped back to the test section by using a device that generates a constant bit pattern. The bit error rate test is a test method that is not widely used in mobile communication systems because it performs a vocoder test that converts data into PCM signals and packet data.

On the other hand, if there is a section to be measured in the currency path, the section was designated separately to check whether the section was normal.

In the conventional communication system, the call path test does not classify the call path by section and loopbacks at the vocoder to listen and judge directly. Therefore, it is impossible to accurately determine whether the call path is normal. Therefore, it is not possible to determine whether or not it is normal for each section of the channel, and when testing the channel divided into sections, each test must be performed individually for each section. Therefore, it takes a lot of time to analyze the test results. In addition, since there is no retest function, there is a problem in that it is not possible to accurately determine whether the system is an instantaneous error or a real error of a device in the system.

The present invention has been made in order to solve such a problem, it is necessary to test each device in the system by separating the test intervals for all currency paths and to test the test intervals for each currency using sound quality measurement equipment. It is possible to reduce the time required for the test by testing from the farthest section from the sound quality measurement equipment without testing each test section in each currency. The objective is to provide a test method for the call of a mobile communication system to accurately determine whether a device is a real error.

In order to achieve the object of the present invention as described above, the method for testing a call path of a mobile communication system according to the present invention comprises the steps of setting a call path test section and a loop; Using a VQTU Vocoder Quality Test Unit (VQTU) to loop back any PCM (Pulse Code Modulation) signal generated by the sound quality measurement equipment from the test interval to the farthest call from the sound quality measurement equipment, and then Determining whether the test section is normal according to the looped test signal, and testing a next test section in another currency or the call being tested according to the determined result.

Preferably, the step of determining whether the test section is normal according to the looped test signal is to test another call path when the value of comparing the test signal before looping back with the loop back test signal is within a threshold value, If the value is greater than or equal to the threshold value, the next test section of the call under test is judged to be tested, and determining whether the test section is normal according to the loopback test signal may be performed. If the test is determined to be normal, the preceding test section may be retested to accurately determine an error.

1 is a block diagram illustrating an internal configuration of a base station controller and a mobile communication switch in a mobile communication system and a call path section.

2 is a flowchart illustrating a method for testing a call path of a communication system according to the prior art.

3 is a flowchart illustrating a method for testing a call path in a mobile communication system according to the present invention.

Explanation of symbols for the main parts of the drawings

10: control unit 20: vocoder

30: exchange unit 40: time exchange device

50: sound quality measurement equipment 100: base station control device

200: mobile communication exchange

Hereinafter, with reference to the accompanying drawings a preferred embodiment of the present invention will be described.

1 is a block diagram illustrating an internal configuration of a base station controller and a mobile communication switch in a mobile communication system and a call path section.

As shown in FIG. 1, in the base station controller 100, a selector & vocoder card 300 connected to a packet bus constitutes a call path in a mobile communication system. In the call, the controller 10 for controlling the flow of packet data between the packet bus and the vocoder and the PCM signal are encoded into the packet data and the vocoder 20 for decoding the packet data into the PCM signal and the PCM signal are switched. It is set by the switching unit 30.

In addition, in the mobile communication switch 200, the call path is set by the time exchange device 40 for switching the PCM signal transmitted and received with the base station control device 100.

In order to test the communication path, the sound quality measurement equipment 50 capable of generating an arbitrary PCM signal is placed at the rear end of the time exchange device 40 of the mobile communication switch 200, and the time exchange with the sound quality measurement equipment 50 is performed. The PCM signal between the device 40 is looped back and its path is set to 4 sections, and the PCM signal between the time exchanger 40 and the switching unit 30 of the base station control device 100 is looped back and the path is 3 In the section, the packet data between the vocoder 20 and the controller 10 is looped back, and the path is looped back in two sections, the loopback between the control section 10 and the packet bus is set in one section. In this case, if the loopback is performed from the sound quality measurement equipment 50 to one section, the entire section is included in the loopback path, so even if only one section has an error, the section 1 test is determined to be an error.

2 is a flowchart illustrating a method for testing a call path of a communication system according to the prior art.

As shown in FIG. 2, in the communication path test method of the communication system according to the related art, each section is individually separated and there is no correlation between each section, and each section is independently tested to determine normality and error. As one, by individually testing for each section (S100) to determine whether the normal (S200) it is possible to know the normal and error of the corresponding section (S300, S400).

3 is a flowchart illustrating a method for testing a call path in a mobile communication system according to the present invention.

As shown in FIG. 3, an arbitrary PCM signal is looped back from section 1, which is the furthest section from the sound quality measuring apparatus 50 (S1). At this time, all the sections except for the one section are looped back, and the tester compares the looped signal with the signal before the loopback and judges that the first section is normal when the comparison value is within the threshold (S2). Here, if one section is normal, all the other sections become normal, and thus, all sections of the call path become normal and test another call path (S3). If the comparison value is greater than or equal to the threshold value, one section is determined to be an error (S2), and the next section is tested (S4). Next, when two sections are tested (S4) and determined to be normal (S5), it is understood that only one section has an error since the sections from the sound quality measurement equipment 50 are normal. Here, it is possible to determine that only one section is an error, but it may be due to an instantaneous error of the system, so the test section is retested up to one section to improve the reliability of the test. If the section 1 retest is judged to be normal (S7), the test up to section 1 is determined to be normal because the preceding section 1 test (S1) is caused by an instantaneous error (S3). If the two-section test (S4) is not normal (S5), three sections are tested (S9). Similarly, if the 3-section test is determined to be normal (S10), the second section is retested (S11) to determine whether it is normal (S12). If it is normal, only one section is an error (S8). Will be. If the three-section test is not normal, the four-section test will be performed. Thus, the test is made to the last section, N section (S14). If the N section test (S14) is determined to be normal (S15), the (N-1) section is retested (S16), and if it is normal (S17), only the (N-2) section is an error (S18), and if it is not normal (S17) ( Only the section N-1) becomes an error (S19). If the N section test (S14) is not normal (S15), the N section is retested (S20), and if it is normal (S21) (N-1) section only error (S19) If not normal (S21), only section N is determined to be error (S22).

As described above, according to the present invention, since the test paths are classified by sections and loops are connected between the sections, the present invention can determine whether the hardware device is normally operated according to whether the sections are normal without testing the hardware devices. The test is performed from the section farthest from the measuring equipment without testing every section individually. At the maximum, all sections are tested, and at least one section test can determine whether all sections are normal or not. The time required for the system can be saved, and the retest function can be used to accurately determine whether the system is an instantaneous error or a real error of a device in the system.

Claims (3)

Establishing a test interval and a loop with a call; Arbitrary PCM (Pulse Code Modulation) signal generated by the sound quality measurement equipment using the VQTU (Vocoder Quality Test Unit) on the loop of the arbitrary test route, the farthest call from the sound quality measurement equipment. Testing by looping back from the test section; Determining whether the test section is normal according to the loopback test signal; And testing a next test section of another currency or the currency being tested according to the determined result. The method of claim 1, wherein the determining of whether the test interval is normal according to the looped test signal comprises: when the value of comparing the test signal before looping back with the loop back test signal is within a threshold, a different currency path is used. And if it is greater than or equal to the threshold, determine to test the next test section of the call under test. The method of claim 1, wherein the determining of whether the test section is normal according to the loopback test signal comprises: testing a next test section if the test section has an error and retesting a preceding test section if it is determined to be correct and correcting the error. A method for testing a call path of a mobile communication system, characterized in that for discriminating.