KR19990055300A - Call setup and release method of personal mobile communication system using base station test equipment - Google Patents

Abstract

The present invention uses a terminal embedded in a BTS (BTS Test Unit), a base station self-test equipment in a PCS (Personal Communication System) system, to grasp the current service status of the base station and call setting of the terminal without directly dispatching to the base station. The present invention relates to a method for setting up and releasing a call by sector / frequency.

In the call setup method according to the present invention, the base station diagnostic block, which has received the test call command sent from the base station manager via the control station diagnostic block, currently diagnoses information of the base station and sends it to the control station block to set up a call or determine the cause of an error. report. After data exchange is performed between the base station and the mobile station, the frame error ratio is obtained using the data of the forward traffic channel packet and the reverse traffic channel packet. In addition, if the above value is less than the threshold based on a certain threshold, it is considered that there is no problem in the call state, and if it is above the threshold, the call quality is recognized as bad and take necessary measures.

In the present invention, it is possible to efficiently manage the problem of the base station, and it is convenient to operate because the situation of the problem can be grasped before going directly to the base station for testing. In addition, the call quality of the base station can be diagnosed more reliably, and the establishment and release of the call itself can diagnose the abnormality of each subsystem. In addition, the serial interface with the test mobile station allows data to be recorded at the test mobile station to collect data to determine the air interface and the air environment.

Description

Call setup and release method of personal mobile communication system using base station test equipment

The present invention uses a terminal embedded in a base station test unit (BTU) which is a base station self-test equipment in a PCS (Personal Communication System) system to grasp the current service status of the base station and call setting of the terminal without directly dispatching to the base station. The present invention relates to a method for setting up and releasing a call in time sector / frequency, and in particular, to transmit and receive a test call to test the performance of a call and the base station wireless environment. Diagnosis, how to figure out the quality.

In the prior art, the state of the base station service could be grasped by using a vehicle or a tester moving directly to the base station to determine the call service state of the base station. Only CAI) could be identified.

In addition, the call can be established through any resource allocated by the base station, for example, frequency, channel element, vocoder, and the like.

As shown in FIG. 1, in order to determine whether a signal is normally progressing through a path, each path from a terminal (Mobile Station (MS)), which is a sub-path of a call, to a base station controller (BSC) must be diagnosed. In the conventional method, only the status of the overall call, that is, whether or not the call is known, was used, and the function was used to diagnose the abnormality along each path.

In order to determine the quality of the call service of the base station, it is necessary to go directly to the place where the base station is located to set up a call and analyze the abnormality on the air interface by using the air interface analysis tool. In order to find out the status of the service for the other frequency being held, the terminal was tested by changing the telephone number of the terminal to tune to the frequency to be tested.

As a result, it was not easy to know the telephone number that tuned to the frequency in a multi-frequency environment.

In addition, even if you set up a call with a terminal number that tunes to the frequency, you cannot determine which access channel to access in the Multi Access Channel. There was a problem that I can not try.

The air interface analyzer could only analyze on the air interface, making it difficult to determine the cause of the call failure in the entire system.

Also, by setting up a call by assigning a random radio resource at the time of radio resource possessed by the system when setting up a call, it is impossible to diagnose the abnormality of the corresponding resource by selecting a resource that is determined to be abnormal. There was a problem.

Therefore, the present invention is to solve the problems described above, by using a terminal mounted in the BTU, the base station self-test equipment to determine the service state of the base station, the present base station without having to go directly to the place where the base station is located. It is possible to grasp the service status of the base station and to allow the terminal to set up and release a call at a desired sector / frequency when setting up a call.

In addition, it is possible to identify the cause of call failure in the overall call processing and to provide a method of diagnosing radio resources by selectively allocating radio resources (frequency, call channel, vocoder, etc.) possessed by the system. do.

1 is a view showing a call setup method according to an embodiment of the present invention.

2 is a diagram illustrating a method for releasing a call according to an exemplary embodiment of the present invention.

A preferred embodiment of the call setup method of the personal mobile communication system of the present invention for achieving the above object,

BSM sends a test call order to CDIAX;

The CDIAX sending a radio environment measurement request command to the BDIAX;

The BDIAX sending a response signal to the CDIAX to the radio environment measurement request command;

The BDIAX sending a radio configuration signal to the BTU / TM;

Sending, by the BTU / TM, a response signal for the radio configuration signal to the BDIAX;

In the abnormal case, the CDIAX sending a test call response signal to the BSM;

Transmitting, by the BDIAX, a radio configuration result response and a status report signal to the CDIAX;

The CDIAX sending a call setup command to CCOX;

The CCOX sending a call setup command to BCOX;

The BCOX sending a channel paging signal to the BDIAX;

The BDIAX transmitting a response signal to the channel paging signal to the BCOX;

The BCOX reporting a call establishment result to the CCOX;

The CCOX reporting the call establishment result to the CDIAX;

The CDIAX reporting the call establishment result to the BSM.

In the present invention, the test call sent from the BSM is

Generating a constant bit pattern for testing in the TSB;

Checking the bit pattern returned by looping back to a terminal;

Checking the error by comparing the looped bit pattern with the transmitted bit pattern; And

It is preferable that the quality of the two-way call is processed through the process of comparing and measuring the quality of the two-way call according to the degree of the error,

In a normal wireless environment in the error checking process, it is preferable that there is almost no difference between the transmitted data and the received data values.

In an abnormal wireless environment during the error checking process, it is preferable that data is not transmitted normally.

After the base station call processing block sets up a call to the corresponding terminal, the base station generates a primary traffic packet for every traffic channel frame and preferably sends it to the terminal.

It is desirable for the base station to use different packet sizes for the transmitted packets.

The various packet sizes are one of 171, 80, 40, and 16 for normal primary traffic, and 0 bits for blank and burst transmission.

The base station preferably sets the bits in a packet to some specific value,

The set to the particular value is random and preferably changes bits between packets,

The mobile station preferably replaces the first two bits of the packet with the frame classification information obtained from the forward traffic channel,

Preferably, the FER is obtained by using data of the forward traffic channel packet and the reverse traffic channel packet.

It is preferable to determine whether there is an abnormality in the call state by comparing the FER value with a specific threshold value.

If the FER value is less than or equal to the threshold, it is determined that there is no problem in the call state. If the FER value is greater than the threshold value, it is preferable to determine that there is a problem in the call state.

The terminal is preferably mounted in base station test equipment.

One preferred embodiment of the call release method of the personal mobile communication according to the present invention for achieving the above object,

Sending a test call release command to the CDIAX by the BSM;

The CDIAX sending a radio environment release request signal to the BDIAX;

The BDIAX sending a result of the radio environment release request to the CDIAX;

The CDIAX sending the test call release command to CCOX;

The CCOX sending a response signal to the CDIAX to the test call release command;

The CCOX sending the test call release command to the BCOX;

The BCOX sending a channel paging signal;

Sending a response to the channel paging signal to the BCOX;

The BCOX sending a response signal to the CCOX in response to the test call release command;

The CCOX reporting a call release result to the CDIAX; And

The CDIAX reporting a call release result to the BSM.

In the present invention, it is preferable that the base station uses various packet sizes for the transmitted packet.

The various packet sizes are preferably one of 171, 80, 40, and 16 for normal primary traffic.

The terminal is preferably mounted in base station test equipment.

Service Option 2 Call is a function that allows the base station to measure the transmission and reception performance of the mobile station, and loops back the primary traffic information bits through the mobile station. It is content to do.

The function of service option 2 is therefore to provide a means for the base station to obtain information about the quality of the forward traffic channel.

The mobile station only generates and reverses the Reverse Traffic Channel Packet from the Forward Traffic Channel Packet received from the base station.

Therefore, the mobile station does not generate a service option request order (Service Option Request Order) to the base station, but the base station manager (Base Station Manager: BSM) sends a service option request command from the base station.

In the call processing process, a command for a test call sent from the base station manager is sent through the control station call processing block and the base station call processing block through the control station diagnostic block, and the terminal mounted in the base station test equipment receives this command to synchronize with the base station. After the call, the call is set up to make the call.

After the terminal is in a call state, the base station manager generates Primary Traffic Information Bits, which are sent to the tuned terminal, and the terminal receives the data again.

Specifically, the Transcoder Selector Bank (TSB; hereafter referred to as TSB) generates a constant bit pattern for testing.

It receives the bit pattern returned to the terminal by returning to the terminal and compares it with the bit pattern that has already been transmitted. The error is checked and the quality of the bidirectional call is measured and compared in the TSB according to the degree of the error.

In normal wireless environment, there is almost no difference in the value of transmitted data and received data, so the error should be close to 0%. However, if the terminal sends the received data, normal data transmission may not be possible if the wireless environment is bad. There is.

Therefore, it is preferable to quantify the difference between the transmitted data and the received data, and to estimate the state of the call quality of the call set up state, and to diagnose the radio environment of the base station during the call setup process. It is desirable to be able to.

When the base station manager sends a test call command to the control station diagnostic block and receives it to the base station diagnostic block, the base station diagnostic block diagnoses the control station by diagnosing the terminal information of the base station, the state of the subcell, and whether the allocated radio resource is used. It is sent in a block, and upon receiving it, sets up a call or reports the cause of the error depending on the result.

In the normal case, after the base station call processing block sets up a call to the corresponding terminal, the base station generates a primary traffic packet for each traffic channel frame and sends it to the terminal.

The terminal sends the received packet back to the base station after the delay time allowed for processing.

For transmitted packets, the base station is configured in five packet sizes ((Normal Primary Traffic: 171, 80, 40, 16), (Blank-and-Burst Transmission: 0 bit)). Can generate one.

The base station may generate one of five packet sizes irrespective of the packet size used in the frame of the preceding frame, and the base station may set the bits in a packet to some specific value.

However, for satisfactory performance measurement, bits should be organized in random order and bits must be changed between packets.

The terminal obtains a frame error rate using the data of the reverse traffic channel packet from the received forward traffic channel packet, and the value of the frame error rate is set to a specific threshold. It is a standard.

If it is below the threshold, it is considered that there is no problem in the call state, and if it is above the threshold, the call quality is regarded as bad and the necessary measures are taken.

The present invention operating as described above, the problem of the base station through the process of establishing and releasing a test call at a remote location without directly going to the base station information that is considered to be a problem in the wireless environment and the call quality of the base station Efficient management is possible, and through this, it is possible to diagnose the wireless environment of the corresponding base station, so that the situation of the problem can be grasped before going to the base station and performing the test, thus providing convenience of operation.

After the call is set up, the data sent from the base station manager and the data received from the base station manager are compared with each other, so that the call quality of the base station can be more reliably diagnosed according to the degree of difference between the two data. In addition, it is possible to diagnose and diagnose the error by reporting the cause and place of the error to the upper level when the error occurs in each subsystem.

In addition, since the packet to be transmitted is made from the packet received at the test mobile station and sent back to the base station, the call quality can be compared by comparing the two packets.

In addition, the serial interface with the test mobile station can be obtained by logging data at the test mobile station to collect data for judging the air interface and the air environment.

Claims (18)

BSM sends a test call order to CDIAX; The CDIAX sending a radio environment measurement request command to the BDIAX; The BDIAX sending a response signal to the CDIAX to the radio environment measurement request command; The BDIAX sending a radio configuration signal to the BTU / TM; Sending, by the BTU / TM, a response signal for the radio configuration signal to the BDIAX; In the abnormal case, the CDIAX sending a test call response signal to the BSM; Transmitting, by the BDIAX, a radio configuration result response and a status report signal to the CDIAX; The CDIAX sending a call setup command to CCOX; The CCOX sending a call setup command to BCOX; The BCOX sending a channel paging signal to the BDIAX; The BDIAX transmitting a response signal to the channel paging signal to the BCOX; The BCOX reporting a call establishment result to the CCOX; The CCOX reporting the call establishment result to the CDIAX; And reporting, by the CDIAX, the call establishment result to the BSM. According to claim 1, wherein the test call sent from the BSM is Generating a constant bit pattern for testing in the TSB; Checking the bit pattern returned by looping back to a terminal; Checking the error by comparing the looped bit pattern with the transmitted bit pattern; And And a process of measuring and comparing the quality of a bidirectional call in the TSB according to the degree of the error. The call setup method of claim 2, wherein there is little difference between the transmitted data and the received data value in a normal wireless environment during the error checking process. The method of claim 2, wherein data is not normally transmitted in an abnormal wireless environment in the error checking process. 4. The method of claim 3, wherein after the base station call processing block sets up a call to the corresponding terminal, the base station generates a primary traffic packet for each traffic channel frame and sends it to the terminal. The method of claim 1, wherein the base station uses various packet sizes for transmitted packets. 7. The method of claim 6 wherein the various packet sizes are one of 171, 80, 40, 16 for normal primary traffic and 0 bits for blank and burst transmission. The method of claim 1, wherein the base station sets bits in a packet to some particular value. 10. The method of claim 8, wherein the set to a particular value is random and changes bits between packets. 2. The method of claim 1 wherein the mobile station replaces the first two bits of the packet with frame classification information obtained from the forward traffic channel. 11. The call setup method according to claim 10, wherein FER is obtained by using data of the forward traffic channel packet and the reverse traffic channel packet. 12. The call setup method according to claim 11, wherein the FER value is compared with a specific threshold value to determine whether there is an abnormality in a call state. 13. The personal portable communication according to claim 12, wherein if the FER value is less than or equal to the threshold, it is determined that there is no problem in a call state, and if the FER value is greater than the threshold value, it is determined that there is a problem in a call state. How to set up a call on your system. The method of claim 2, wherein the terminal is mounted in base station test equipment. Sending a test call release command to the CDIAX by the BSM; The CDIAX sending a radio environment release request signal to the BDIAX; The BDIAX sending a result of the radio environment release request to the CDIAX; The CDIAX sending the test call release command to CCOX; The CCOX sending a response signal to the CDIAX to the test call release command; The CCOX sending the test call release command to the BCOX; The BCOX sending a channel paging signal; Sending a response to the channel paging signal to the BCOX; The BCOX sending a response signal to the CCOX in response to the test call release command; The CCOX reporting a call release result to the CDIAX; And And reporting, by the CDIAX, the call release result to the BSM. 16. The method of claim 15 wherein the base station uses various packet sizes for transmitted packets. 17. The method of claim 16 wherein the various packet sizes are one of 171, 80, 40, 16 for normal primary traffic and 0 bits for blank and burst transmission. 16. The method of claim 15, wherein the terminal is mounted in base station testing equipment. A method for testing call performance and base station wireless environment using a base station test equipment, comprising allowing a terminal to set up a call at a sector / frequency after tuning with a base station when setting up a call in a base station call processing block.