KR20000056461A - Vocoder and system route test method using bit pattern - Google Patents

Abstract

PURPOSE: A method for testing system paths using a vocoder having bit patterns is provided to easily decide whether each system path of a control station is normal through a monitor by adding a programmable algorithm without changing a hardware, and by generating regular bits in the vocoder of the control station to examine errors of the system paths in the vocoder. CONSTITUTION: A method for testing a vocoder and system paths using bit patterns comprises the steps of: making a control station monitor set up an idle vocoder; making the control station monitor command a system loop back test to the vocoder through a central processing unit(CPU), or command a signal loop back process in a designated point for testing the paths; making the vocoder generate regular bit patterns in a serial interface part, and making signals of the bit patterns pass through an encoding path of the vocoder; making the bit patterns return from a determined specific position, and pass through a decoding path of the vocoder; detecting whether errors are generated on the basis a bit-by-bit result between signals of the returned bit patterns and the bit pattern signals; and displaying a looped-back path on the control station monitor, and displaying a result reported in the vocoder.

Description

Vocoder and system route test method using bit pattern}

The present invention relates to a mobile communication system, and more particularly, to a vocoder and a system using a bit pattern that generates a predetermined bit inside a vocoder of a mobile communication control station so that the vocoder itself can verify and check errors in system paths and make a status determination. It is about a path test method.

In general, system verification in a mobile communication system has been performed in a manner of determining an error of an entire system by using only its own block verification in each block.

For example, the vocoder test alone has been self-verified using only the vocoder's own diagnostic function. However, there were many limitations in detecting errors in the entire system paths.

In the conventional mobile communication system, the test of the control station system could not be performed, and only tests for each module in the control station were performed, and based on this, it was determined whether there was an abnormality in the entire control station system or the actual call test using the terminal. The system verification test was performed through.

The present invention has been made to solve such a conventional problem, and an object of the present invention is to generate a constant bit pattern in a vocoder algorithm of a mobile communication control station and return a signal through a loop back command in each system path established. By comparing the signals generated in the vocoder with the signals returned through each path, the actual error is identified and reported to the control station monitor so that the system user can easily determine whether there is an error between the given paths. To provide a vocoder and a system path test method using a pattern.

1 is a block diagram illustrating the location and test path of the present invention in a mobile communication control station system of the present invention;

2 is a flow chart according to the present invention.

<Explanation of symbols for main parts of drawing>

10: mobile communication base station 20: mobile communication control station

21: Trunk interface 22: Selection part

23: Vocoder 24: Packet interface

25: encoder 26: decoder

27: serial interface 30: mobile communication control station monitor

40: mobile communication switching center

In order to achieve the above object, the present invention provides a first step of setting an idle state vocoder in a control station monitor, and a designated point to issue a system loop backtest command or perform a test to a vocoder through a CPU in the control station monitor. In the second step of giving a signal loop back command, the vocoder generates a constant bit pattern in the serial interface portion, the third step of passing the signal through the vocoder encoder path, and the predetermined bit pattern generated in the vocoder is determined. A fourth step of looping back at a specific position and going through the decoding path of the vocoder, a fifth step of detecting the presence or absence of an error state based on the bit-by-bit result of the looped-back signal and the bit pattern signal, and the control The route display looped back on the station monitor and the results reported by the vocoder are displayed. Characterized in that the sixth step.

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

1 is a block diagram of the present invention, in a mobile communication system in which a mobile communication control station 20 is provided between a mobile communication base station 10 and a mobile communication switching center 40, wherein the mobile communication control station 20, A trunk interface 21 for performing an interface with the mobile communication base station 10, a selection unit 22 for performing overall call processing and other calls related algorithms of the mobile communication control station 20, and And a vocoder 23 connected between the selection unit 22 and the mobile communication switching center 40 to process voice data.

Through this module, the control station 20 performs packet data communication with the mobile communication base station 10, and performs PCM data communication with the mobile communication exchange 40.

The vocoder 23 is connected to a packet interface 24 for interfacing with the selector 22, a serial interface 27 for generating a bit pattern by connecting to the mobile communication switching center 40, and the packet interface ( It consists of an encoder 25 and a decoder 26 which perform encoding or decoding between the 24 and the serial interface 27.

In addition, the mobile communication control station 20 is connected to a mobile communication control station monitor 30 that performs overall status management and monitoring functions of the control station 20.

The serial interface 27 of the vocoder 23 generates a bit pattern signal of the present invention and sets up a virtual call to test each path.

However, in FIG. 1, A, B, and C are paths for looping back the vocoder bit pattern signal through the control station monitor 30 for the purpose of the path test at this point.

The operation of the present invention configured as described above will be described in detail with reference to FIG. 2.

First, the mobile communication control station monitor 30 sets the vocoder 23 in the idle state (step S1).

That is, the control station monitor 30 sets the vocoder 23 in the idle state on the currently operating system and makes the vocoder initialization and virtual call state through the selection unit 22.

Next, the mobile communication control station monitor 30 issues a system loop backtest command to the vocoder 23 via the CPU (step S2).

It also issues a signal loopback command at the specified point to test.

That is, the mobile communication control station monitor 30 issues a bit pattern generation command to the vocoder 23 through the selection unit 22, and issues a packet loop back command to a specific path.

Then, the vocoder 23 generates the desired bit pattern in the PCM data format in the serial interface 27 portion, and this signal passes through the encoder 25 of the vocoder 23 (step S3).

At this time, the designated loopback point is the vocoder packet interface unit 24 of A, the selection unit 22 of B, and the trunk interface 21 of C in FIG.

The bit pattern at this time may be coded programmable to the user's request.

For example, 0 × AAAA may be 0b1010101010101010, and the bit pattern value of the sine waveform may be stored in a buffer, and the algorithm may be performed through a vocoder encoding algorithm.

At this time, in order to synchronize the system timing, the previous 16 bits are used as a preamble for synchronizing with a signal returned later by setting the first 16 bits for each frame.

The predetermined bit pattern generated by the vocoder 23 is looped back at a predetermined specific position and is inputted to the serial interface through the decoder 26 of the vocoder 23 (step S4).

That is, since the entire path of the system is a virtual call connection state, the data of step S1 passes through each path of the system, and at this time, the input loop is sent back to the output in the designated loop back path.

Accordingly, the vocoder 23 checks and synchronizes the stored bit pattern signal with the preamble of the returned signal, and then compares the bit pattern signal with the preamble of the returned signal to count the number of error bits to detect the presence of a pattern error (S5). step).

That is, the presence or absence of an error state is reported to the control station monitor 30 based on the bit by bit result of the loop-backed signal and the bit pattern signal.

The result is then displayed through the mobile communication control station monitor 30 (step S6).

In this case, the signal reported to the control station monitor 30 through the selector 22 is a number of errors in one frame (160 sample data, actual bit pattern data is preamble data 146 bits excluding the preamble) Compare error rate = Display the value of to verify the abnormality of the current path.

When the present invention as described above is applied to a mobile communication system, it is possible to easily determine whether there is an abnormality in each path of the control station through the control station monitor without adding a programmable algorithm without changing hardware. Using this function, the system debugging (Debugging) can be performed smoothly.

In addition, there is an effect that can be used to check the path of the mobile communication system by checking the designated path of the mobile communication system using the vocoder and errors in the vocoder.

Claims (1)

A first step of setting an idle state vocoder on the control station monitor; A second step of issuing a system loop backtest command to the vocoder through the CPU at the control station monitor or a signal loop back command even at a designated point where the test is to be performed; A third step in which the vocoder generates a predetermined bit pattern in the serial interface portion, the signal passing through the vocoder encoder path; A fourth step in which the predetermined bit pattern generated by the vocoder is looped back at a predetermined specific position and passes through the decoding path of the vocoder; A fifth step of detecting the presence or absence of an error state based on a bit by bit result of the looped-back signal and the bit pattern signal; And a sixth step of displaying a path indication looped back by the control station monitor and a result reported by the vocoder.