KR100464478B1 - Apparatus for noise output prevention by transmit error detection in wireless local loop - Google Patents

Abstract

According to the present invention, in a wireless subscriber network where the noise is severe due to interference noise in the wireless transmission section between the wireless base station and the wireless subscriber network terminal, the wireless subscriber station can mute without outputting the call noise of the wirelessly transmitted signal. SUMMARY OF THE INVENTION The present invention provides a transmission error diagnosis apparatus for suppressing the output of a call noise, comprising: a first digital voice unit for receiving digital voice data transmitted from a switching system; A voice compression coding unit which compresses the digital voice data output from the first digital voice unit; A voice signal transmitter for wireless transmission by including the parity bit output from the parity generator in the voice data compressed by the voice compression coding unit; A parity generating unit for generating a parity bit for parity check using the compressed voice data compressed by the voice compression coding unit and outputting the parity bit to the voice signal transmitting unit; Receiving voice data including the parity bit transmitted from the voice signal transmitting unit and performs a parity check to determine whether the output of the received voice data is composed of a receiving control block, when the wireless environment is poor By suppressing the output of the call noise through the wireless subscriber network can improve the reliability of the communication quality.

Description

Transmission error diagnosis device that suppresses the output of call noise in wireless subscriber network {Apparatus for noise output prevention by transmit error detection in wireless local loop}

The present invention relates to an apparatus for diagnosing a transmission error in a wireless subscriber network. In particular, in the wireless transmission section between a wireless base station and a wireless subscriber network terminal, the noise of a signal transmitted wirelessly is severe when the call is difficult due to interference noise. The present invention relates to a transmission error diagnosis apparatus for suppressing the output of call noise in a wireless subscriber network that can be silent without output.

In general, a signal transmitted from a switching system of a wireless subscriber network is transmitted as a radio signal from a base station close to a corresponding wireless terminal to receive the signal, as a radio signal. That is, the signal transmitted from the switching system includes information on which terminal should be transmitted, and the base station controller specifies a base station close to the corresponding radio terminal according to the information so that the radio signal is transmitted.

The signal transmitted from the base station is transmitted as a terrestrial wave and received at the corresponding radio terminal, and the operation of transmitting the signal transmitted from the wireless subscriber network terminal to the switching system through the base station is reversed.

However, in an environment where communication is performed by transmitting / receiving a radio transmission signal such as in a wireless subscriber network, there is a possibility that an unpredictable noise may be generated in a radio section between subscriber stations in a base station. That is, the signal transmitted wirelessly has the possibility of noise due to the wave characteristics such as reflection diffraction interference due to the topographic effect, and the reception sensitivity due to the waveform distortion and the directivity of the receiving antenna due to the asymmetric distribution of charged particles in the wireless section. As a result, various noise generation factors such as a decrease in the effective signal-to-noise ratio are caused.

Therefore, the wireless subscriber network needs a method for handling the call noise generated in the wireless section.

Hereinafter, a transmission and reception system of a wireless subscriber network according to the prior art will be described.

First, Figure 1 is a block diagram of a transmission and reception system of a wireless subscriber network according to the prior art.

As shown in FIG. 1, the conventional system includes: a first digital voice unit (11) for receiving digital voice data transmitted from an exchange system; A voice compression transmitter (12) which compresses the signal received by the first digital voice unit (11) so as to be suitable for wireless transmission and transmits it through the radio section (14); A voice compression receiver 14 which receives the radio signal transmitted from the voice compression transmitter 12 and decompresses and transmits the decompressed signal to the second digital voice unit 15; And a second digital voice unit 15 for outputting the digital voice data transmitted from the voice compression receiver 14 to an external data processing apparatus.

The operation of the device configured as described above is as follows.

In a conventional transmission / reception system, when analog voice data is digitized and transmitted from one switching system or subscriber terminal, the other side receives the transmitted digital voice data and converts the analog voice data into analog voice data.

That is, the analog voice data is converted into digital voice data and then input to the first digital voice unit 11 of the base station controller through the switching system. The first digital voice unit 11 receives digital voice data, wherein the received digital voice data is configured according to the A-Law PCM format and may be transmitted to the voice compression transmitter 12 at a speed of 64 Kbps.

The digital voice data output from the first digital voice unit 11 is compressed by the voice compression transmitter 12 to be converted into ADPCM format data, and wireless transmission is possible at a rate of 32 Kbps. At this time, the transmission speed decreases due to the compression of the signal, and the compressed signal is transmitted to the radio section through the base station. Therefore, the transmission speed of the wireless section has a limit of 32Kbps.

As described above, the voice data wirelessly transmitted from the base station is received by the antenna of the subscriber station and decompressed by the voice compression receiving unit 14 to restore the data of the A-Law PCM format of 64 Kbps from the ADPCM of 32 Kbps.

Thus, the digital voice data decompressed by the voice compression receiver 14 is output to an external device through the second digital voice unit 15. In particular, the data output from the second digital voice unit 15 of the subscriber station is converted into analog voice data through an external converter device, and then directly driven by the speaker of the subscriber station to cause audible audible sound that can be perceived by the subscriber. do.

In the above, the case where the voice data is wirelessly transmitted from the switching system to the subscriber terminal has been described. When the voice data is wirelessly transmitted from the subscriber terminal to the switching system, each function unit operates in the reverse direction of the above-described operation. Therefore, it becomes possible to perform bidirectional communication in the transmission / reception system of the wireless subscriber network.

However, in the above-described apparatus according to the related art, when the noise of the call is severely transmitted and received between the base station and the subscriber station, the effective signal-to-noise ratio of the received data is significantly lowered, thereby degrading the performance of the switching system and making noise during the call and cutting the call. There was a problem that the phenomenon is caused such that the reliability of the system is lowered.

Accordingly, the present invention has been proposed to solve the conventional problems as described above, and an object of the present invention is to make a call difficult due to interference noise in the wireless transmission section between the wireless base station and the wireless subscriber network terminal. The present invention provides a transmission error diagnosis apparatus for suppressing the output of call noise in a wireless subscriber network that can mute without outputting call noise of a wirelessly transmitted signal.

In order to achieve the above object, a transmission error diagnosis apparatus for suppressing output of call noise in a wireless subscriber network according to the present invention comprises: a first digital voice unit for receiving digital voice data transmitted from a switching system; A voice compression coding unit which compresses the digital voice data output from the first digital voice unit; A voice signal transmitter for wireless transmission by including the parity bit output from the parity generator in the voice data compressed by the voice compression coding unit; A parity generating unit for generating a parity bit for parity check using the compressed voice data compressed by the voice compression coding unit and outputting the parity bit to the voice signal transmitting unit; The technical configuration of the present invention is made up of a reception control block which determines whether to output the received voice data by performing parity check by receiving voice data including parity bits transmitted from the voice signal transmitter.

1 is a block diagram of a transmission and reception system of a wireless subscriber network according to the prior art,

2 is a block diagram of a transmission error diagnosis apparatus for suppressing output of call noise in a wireless subscriber network according to an embodiment of the present invention;

3 is an exemplary diagram of an error diagnosis test applied to the apparatus of FIG. 2.

Explanation of symbols on the main parts of the drawings

21, 33: digital voice unit 22: voice compression coding unit 23: voice signal transmission unit

24 parity generating unit 24 pattern control unit 31 voice signal receiving unit

32: speech compression decoding unit 34: parity check unit 35: voice unit control unit

Hereinafter, the configuration and operation of the present invention will be described in detail according to an embodiment of the present invention according to the technical concept of the transmission error diagnosis apparatus for suppressing the output of the call noise in the wireless subscriber network.

First, FIG. 2 is a block diagram of a transmission error diagnosis apparatus for suppressing output of call noise in a wireless subscriber network according to an embodiment of the present invention, and FIG. 3 is an example of an error diagnosis test applied to the device of FIG. It is also.

As shown in FIG. 2, a suitable embodiment of the present invention includes: a first digital voice unit 21 for receiving digital voice data transmitted from an exchange system; A voice compression coding unit 22 for compressing the digital voice data output from the first digital voice unit 21; A voice signal transmitter 23 for wirelessly transmitting the parity bits output from the parity generator 24 to the voice data compressed by the voice compression coding unit 22; A parity generating unit (24) for generating parity bits for parity check using the compressed voice data compressed by the voice compression coding unit (22) and outputting the parity bits to the voice signal transmitting unit (23); A pattern control unit 25 for controlling parity bit generation and confirmation operations of the parity generating unit 24 and the parity checking unit 34; A voice signal receiver 31 which receives the wirelessly transmitted data and outputs it to the parity checker 34 and outputs voice data excluding the parity bit from the received data to the voice compression decoder 32; A voice compression decoding unit 32 for decompressing and restoring the voice data output from the voice signal receiving unit 31; A second digital audio unit 33 for outputting or muting processing of the audio data restored by the audio compression decoding unit 32 according to the control signal of the audio unit control unit 35; A parity checking unit (34) for checking a data transmission error by performing a parity check on the data output from the voice signal receiving unit (31) according to a control signal of the pattern control unit (25); When the parity check unit 34 detects a transmission error, the parity check unit 34 includes a voice unit control unit 35 for preventing output of voice data through the second digital voice unit.

The operation of the device configured as described above is as follows.

The present invention detects noise by checking a transmission error of data transmitted wirelessly using a parity check technique. The pattern controller 25 controls the generation and confirmation of parity bits for parity check.

Referring to the operation on the transmitting side, the digital voice data in PCM format transmitted from the switching system is received by the first digital voice unit 21 and output to the voice compression coding unit 22. The voice compression coding unit 22 compresses the input voice data in the ADPCM format. At this time, the data compressed in the ADPCM format uses 24Kbps, unlike 32Kbps in the prior art.

The voice data compressed in the ADPCM format is output to the voice signal transmitter 23 and the parity generator 24, respectively. The parity generator 24 then generates parity bits using voice data according to the reference pattern presented by the pattern controller 25. In this case, the parity bit is generated by using a general parity check technique, and the parity pattern by the pattern controller 25 allows the parity checker 34 to check the parity bit generated by the parity generator 24. Control is required.

The parity bit generated by the parity generator 24 is included in the last bit of the voice data by the voice signal transmitter 23. The voice data including the parity bit is wirelessly transmitted to the receiving target terminal through the voice signal transmitter 23.

For example, as shown in FIG. 3, an even parity is generated by applying even parity to data bits D2, D1, and D0 in ADPCM, and the parity bits are transmitted in the 'P' bit, which is the last bit of the data frame. Will be done.

When voice data including the parity bit is wirelessly transmitted as described above, the subscriber station on the receiving side receives the transmitted voice data through an antenna and inputs the voice data to the voice signal receiver 31. Then, the receiving voice signal receiver 31 outputs the received voice data to the parity checker 34 and outputs the voice data excluding the parity bit among the received voice data to the voice compression decoding unit 32. .

The speech compression decoding unit 32 receives the speech data, decompresses the speech data, and decompresses the 24Kpbs ADPCM signal into a signal having an A-Law format of 64Kbps. The restored signal may be output as a voice signal from the subscriber's terminal and is output to another device such as a speaker through the second digital voice unit 33.

However, when the restored voice data has a lot of call noise, that is, when the effective signal-to-noise ratio is low, data output through the second digital voice unit 33 is prevented. The output control operation of the second digital voice unit 33 is based on the parity check result, and the parity check unit 34 performs the parity check on the voice data output from the voice signal receiver 31. .

The parity check is performed by the parity checker 34 calculating parity for the bits of the voice data as in the receiving side of the example shown in FIG. 3, confirming that there is no transmission error in the case of even parity. In this case, it is confirmed that there is a transmission error.

The parity check result of the parity check unit 34 is output to the voice unit control unit 35, and the voice unit control unit 35 receives the parity check result and there is no parity error. To output the voice data, and if there is a parity error, the output of the voice data through the second digital voice unit 33 is prevented.

As described above, when the transmitter includes parity bits in the compressed voice data and transmits the received voice data, the receiver receives the voice data and performs parity check to output the voice data in order to suppress call noise when there is a parity error. To prevent. That is, in the wireless communication between the base station and the subscriber station, the reception side detects a transmission error of the received signal through parity check to prevent the output of the call noise generated in the wireless section.

Although the preferred embodiment of the present invention has been described above, the present invention may use various changes, modifications, and equivalents. It is clear that the present invention can be applied in the same manner by appropriately modifying the above embodiments. Accordingly, the above description does not limit the scope of the invention as defined by the limitations of the following claims.

As described above, the transmission error diagnosis apparatus for suppressing the output of the call noise in the wireless subscriber network according to the present invention, the noise occurrence factor in the wireless communication section between the base station and the subscriber station of the wireless subscriber network irregularly increases the wireless environment If this temporarily worsens, it is possible to suppress the output of the call noise through the terminal on the receiving side, thereby improving the reliability of the communication quality of the wireless subscriber network.

In other words, the subscriber on the receiving side can wait without interrupting the call connection and resume the call after the wireless environment is improved if the silence state without the sound of the call is temporarily transmitted during the call through the terminal. It is possible to improve the reliability of the call quality of the wireless subscriber network compared to the subscriber was forced to terminate the call connection because the call noise of the terminal is severe.

Claims (3)

A first digital voice unit for receiving digital voice data transmitted from the switching system; A voice compression coding unit for compressing the digital voice data output from the first digital voice unit; A pattern controller for generating a pattern of parity bits to be inserted into speech data compressed by the speech compression coding unit; A parity generator which generates and outputs a parity bit for parity check by using the voice data compressed by the voice compression coding unit according to the pattern generated by the pattern controller; A voice signal transmitter for wireless transmission by including the parity bit output from the parity generator in the voice data compressed by the voice compression coding unit; Call noise in a wireless subscriber network comprising a reception control block which receives voice data including parity bits transmitted from the voice signal transmitter and performs parity check to determine whether the received voice data is output Transmission error diagnosis device that suppresses the output of the controller. The method of claim 1, wherein the reception control block, A voice signal receiver for receiving and outputting wirelessly transmitted data; A voice compression decoding unit which decompresses and restores the voice data output from the voice signal receiving unit; A parity check unit which checks whether or not a data transmission error is performed by performing a parity check on the voice data output from the voice signal receiver according to a control signal of the pattern controller; When the parity check unit detects a transmission error, the silence unit controls the silence processing signal of the voice data; The voice compression decoding unit outputs the restored voice data, and when the mute processing signal is input from the voice control unit, the second digital voice unit is configured to perform mute processing. Suppressing transmission error diagnosis device. delete