KR20000010374A - Sound data transmitting method in channel modem for satellite communication system - Google Patents

Abstract

PURPOSE: A sound data transmitting method in a channel modem for a satellite communication system capable of reducing amount of transmission data and improving a processing time and speed of the transmission data by converting sound data to be transmitted into a contracted code every predetermined interval and producing a burst by using residue sound data other than the coded part, is provided. CONSTITUTION: The sound data transmitting method in a channel modem for a satellite communication system, the method comprising the steps of: compressing transmission sound data; multiplexing the compressed transmission sound data; converting and encoding the multiplexed sound data into a zero code every predetermined interval; producing a burst having sound data other than the zero code among the encoded sound data; and modulating and transmitting the produced burst.

Description

Voice Data Transmission Method of Channel Modem for Satellite Communication System

The present invention relates to a channel modem of a communication system using satellite, and in particular, converts voice data into a contracted code at regular intervals, and generates and transmits a burst with the remaining voice data except for the code-converted portion. The present invention relates to a method for transmitting voice data of a channel modem for a satellite communication system, which can reduce and improve the processing time and speed of data.

1 is a block diagram schematically showing a configuration of a channel modem for a conventional satellite communication system.

In the drawing, reference numeral 1 denotes an MPH (Main PCM Highway BUS) for transmitting and receiving voice and data, and 2 denotes a Utility PCM Highway BUS (UPH) for transmitting and receiving various control data.

Further, reference numeral 3 denotes a bus interface for performing an interface function with the MPH bus 1 and the UPH bus 2, and 4 denotes an echo memory for removing echoes of voice data transmitted from the bus interface 3. Claim 5 detects the presence or absence of the voice data output through the echo suppressor 4 and outputs the ON / OFF signal of the voice data according to the above. The voice detection unit calculates a noise index to output noise and outputs predetermined base noise data.

On the other hand, reference numeral 6 is a compensator that transmits voice band data by encoding a 64Kbps PCM signal into a 32Kbps ADPCM signal by using a μ-law method or an A-law method, or ADPCM decoding an input 32Kbps signal into a 64Kbps signal, 7 adds and multiplexes the base noise data applied by the voice detection unit 5 to the signal transmitted from the compensator 6, and adds a SOM (Start Of Message) signal used to obtain a frame synchronization signal at the receiving side. A multiplexer (MUX), 8, is an encoder that scrambles and differentially encodes the signal transmitted from this multiplexer (7).

Further, reference numeral 9 denotes a burst BURST by adding a synchronization signal to the front and rear ends of the signal transmitted from the encoder 8, and generates the burst according to the voice on / off signal applied from the voice detection unit 5. Is a TX unit for multiplexing, 10 modulates a signal inputted from the TX unit 9 and up-converts the modulated signal to generate and output an intermediate frequency, down-converts the input intermediate frequency and demodulates it. It is a modulator demodulating part.

On the other hand, reference numeral 11 is an RX synchronizer for synchronizing the receiving end of the signal demodulated and output by the demodulation unit 10, and 12 is a decoder for decoding data transmitted in a manner corresponding to the encoder 8. For example, when the transmitted signal is encoded by the convolution coding method, the received signal is decoded by the Viterbi decoding method.

In addition, reference numeral 13 extracts the basis noise data included in the received signal and transmits it to the noise generator 14 to be described later, and also detects the SOM signal generated by the multiplexer 7, A demux (DEMUX) for demuxing only data having the data, and 14 denotes noise based on the base noise data applied by the demultiplexer 13 according to the data on / off signal transmitted from the RX synchronizer 11. As a noise generator for generating, the noise signal output from the noise generator 14 is added to the voice data applied from the compensator 6 to the echo suppressor 4.

That is, in the channel modem having the above-described configuration, voice data transmitted from the MPH 1 is transmitted to the echo suppressor 4 through the bus interface 3, and echo is removed through the echo suppressor 4. Voice data is applied to the compensator 6. The compensator 6 encodes and transmits a 64 Kbps PCM signal into a 32 Kbps ADPCM signal, multiplexes a signal applied from the compensator 6 through a multiplexer 7, and obtains a frame synchronization signal at the receiving side. The SOM (Start Of Message) signal used is added, and the encoder 8 scrambles and differentially encodes the signal transmitted from the multiplexer 7.

The TX synchronizer 9 adds a synchronization signal to the front and rear ends of the signal transmitted from the encoder 8 to generate a burst BURST, and the modulator 10 demodulates the burst input from the TX synchronizer 9. Modulate and upconvert to generate intermediate frequency and output.

However, in the case of transmitting the voice data in the satellite communication system as described above, in general, the data is coded and transmitted instead of just transmitted, so that even if the data is broken or an error occurs during the data transmission, the receiving side restores and processes the coded data again. It is able to receive data that is not much different from the data.

Therefore, as described above, when the voice data is transmitted, most of them are coded at 1/2 code rate and transmitted. When the transmission data is 1/2, the bandwidth is doubled and the amount or time of processing the transmitted data is also increased. It is doubled. Therefore, there is a problem that the processing speed and time of the voice data are delayed.

Accordingly, the present invention was created in view of the above circumstances, and converts the voice data to be transmitted into a contracted code at regular intervals, and generates and transmits a burst with the remaining voice data except for the code-converted portion. It is an object of the present invention to provide a method for transmitting voice data of a channel modem for a satellite communication system that can reduce and improve data processing time and speed.

1 is a block diagram schematically showing the configuration of a channel modem for a conventional satellite communication system.

2 is a diagram illustrating a format of a voice data frame transmitted from a channel modem transmitter for satellite communication.

3 is a diagram illustrating a format of a voice data frame transmitted according to an embodiment of the present invention.

*** Explanation of symbols for the main parts of the drawing ***

1: MPH 2: UPH

3: BUS interface 4: echo suppressor

5: voice detector 6: compensator

7: Multiplexer (MUX) 8: Encoder

9 TX device 10: modulation and demodulation unit

11: RX unit 12: Decoder

13: demultiplexer (DEMUX) 14: noise generator

A voice data transmission method of a channel modem for a satellite communication system according to the present invention for realizing the above object comprises: a comparator for compressing or decompressing transmitted voice data, a multiplexer for multiplexing a signal applied from the comparator, An encoder for scrambling and differentially encoding a signal transmitted from a firearm, a TX synchronizer for generating a burst by adding a synchronization signal to the front and rear ends of the signal transmitted from the encoder, and a modulator for modulating and outputting the generated burst. In a satellite communication system having a channel modem, the voice data compression step of compressing the transmitted voice data, the voice data multiplexing step of multiplexing the compressed voice data, the multiplexed voice data to zero code at regular intervals Voice data encoding step of converting and encoding, zero code of the encoded voice data By modulating the exception of burst generation step of generating a burst containing the remaining audio data, the resulting burst includes a data transmission step of transmitting is characterized in that configured.

In addition, when receiving and decoding the transmitted burst, a zero code is inserted and demuxed into the received voice data at predetermined intervals, thereby receiving the same voice data as the transmitted voice data.

That is, according to the present invention having the above-described configuration, the transmitted voice data is converted into zero codes at predetermined intervals and encoded, and then a burst is generated and transmitted through the remaining voice data except for the zero code, thereby reducing the amount of data to be transmitted. This makes it possible to shorten the data processing speed and time.

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

FIG. 2 illustrates the format of a voice data frame transmitted from a channel modem transmitter for satellite communication. In FIG. 2, a voice data frame is generated by a multiplexer 7 of a channel modem at the front end of the voice data frame as shown in (A). And a flag (FLAG) signal for indicating the status of the data, voice data, and two-bit noise level data and an eight-bit signal bit calculated by the voice detector 5 on the transmitting side. It will be configured in turn.

In the structure of the data frame, voice data is transmitted in a structure in which I and Q data are sequentially arranged as shown in FIG.

That is, the voice data transmitted from the MPH 1 is transmitted to the echo suppressor 4 via the bus interface 3, and the echo data through which the echo is removed through the echo suppressor 4 is transmitted to the compensator 6. In the compensator 6, the 64Kbps PCM signal is compressed into a 32Kbps ADPCM signal and transmitted to the multiplexer 7.

Subsequently, the multiplexer 7 multiplexes the signal applied from the compensator 6 and adds a SOM (Start Of Message) signal used to obtain a frame synchronization signal at the receiving side. The signal transmitted from the multiplexer 7 is scrambled and differentially encoded. At this time, since the half code rate is applied to code the data, the bandwidth of the data signal is doubled.

In addition, a synchronization signal is added to the front and rear ends of the signal transmitted from the encoder 8 in the TX synchronization device 9 to generate a burst BURST of the data frame as shown in FIG. Modulates and upconverts the burst input from the TX drive 9 to generate and output an intermediate frequency.

Therefore, when the signal having the data frame structure is transmitted and received, the processing speed and processing time are doubled as the bandwidth of the transmission data is doubled. In the present invention, the voice data is transmitted in the structure of the transmitted data frame. Is converted into a zero code at regular intervals, and the remaining voice data except for the portion converted to the zero code is transmitted, thereby reducing transmission time or processing time.

FIG. 3 shows the format of a voice data frame transmitted from a channel modem transmission side for explaining an embodiment of the present invention. In other words, in the channel modem according to the present invention, transmission data is applied from the MPH 1 to provide a bus interface ( 3) When the echo data is transmitted to the echo suppressor 4, the echo data through which the echo is removed is applied to the compensator 6 through the echo suppressor 4, and the data passing through the echo suppressor 4 is transmitted. The noise index of the data is calculated on the basis of the following, which is applied to the multiplexer 7 through the voice detector 5, encoded together with the voice data of the transmitted data, and After modulating, it outputs the signal of intermediate frequency band.

The voice data from which the echo is removed is compressed into an ADPCM signal through the compensator 6 and sent to the multiplexer 7, and the voice data multiplexed through the multiplexer 7 is sent to the encoder 8. As shown in (A) of FIG. 3, I and Q data of the compression multiplexed result are converted into zero codes at predetermined intervals and encoded.

The remaining voice data except for the portion converted to zero code by the encoder 8 is composed of I and Q data, and the voice data are synchronized signals at the front and rear ends of the signal through the TX synchronizer 9. And a SOM signal for notifying the start of data and a flag signal for notifying the state of data are provided to generate and output a burst of the data frame as shown in FIG.

Therefore, the burst output from the TX synchronization device 9 is subjected to BPSK or QPSK modulation through the modulation / demodulation unit 10 to output a modulated signal of, for example, 512 KHz.

On the other hand, on the receiving side receiving the above signal, a signal input at an intermediate frequency of 70 MHz is down-converted to a frequency signal of 384 KHz and transmitted to the demodulator 5, and the demodulator 5 is input to a 384 KHz input signal. The signal is demodulated into I, Q channel data and applied to the RX synchronizer 11. Subsequently, the RX synchronizer 11 applies an on / off signal of the data to the noise generator 14 according to the presence or absence of voice data among the data applied from the demodulator 5, and the noise generator 14 transmits the RX synchronizer. Based on the data on / off signal of (11), noise corresponding to predetermined noise level data is generated and added to the voice data.

The synchronized signal output from the RX synchronizer 11 is applied to the decoder 12 in a data frame as shown in FIG. 3B. In this decoder 12, the audio data portion is represented as shown in FIG. Zero code is inserted and decoded at predetermined intervals, and demuxed through the demultiplexer 13 to reproduce the same voice data transmitted from the transmitter.

That is, according to the above embodiment, the voice data transmitted from the channel modem for the satellite communication system is converted into zero codes at predetermined intervals, and bursts are generated and transmitted with the remaining voice data except for the converted zero data. The time can be shortened.

In addition, this invention is not limited to the said Example, It can variously deform and implement within the range which does not deviate from the technical summary of this invention.

As described above, according to the present invention, the voice data transmission method of the channel modem for the satellite communication system can be realized by improving the processing time and speed of the data by reducing the amount of voice data in the satellite communication system. Will be.

Claims (2)

A comparator for compressing or decompressing the transmitted voice data, a multiplexer for multiplexing a signal applied from the comparator, an encoder for scrambled and differentially encoded a signal transmitted from the multiplexer, the front and rear ends of a signal transmitted from the encoder In a satellite communication system having a channel modem configured to add a synchronization signal to and generate a burst (BURST), and a modulation and demodulation section for modulating and outputting the generated burst, A voice data compression step of compressing the transmitted voice data, A voice data multiplexing step of multiplexing the compressed voice data; A voice data encoding step of converting the multiplexed voice data into a zero code at regular intervals and encoding the same, A burst generation step of generating a burst including the remaining voice data except for the zero code among the encoded voice data, And a data transmission step of modulating and transmitting the generated burst. The method of claim 1, And a zero code is inserted into the received voice data at predetermined intervals when the transmitted burst is received and decoded.