JP2555944B2 - Data transmission equipment - Google Patents

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a data transmission device,
In particular, the present invention relates to an independent data transmission method in a system for transmitting and receiving digitized voice data of satellite communication.

[0002]

2. Description of the Related Art Conventionally, in the independent data transmission method,
As shown in FIG. 3, the error correction code addition circuit 12 of the voice transmission device 11 generates and adds an error correction code to transmission data such as range bits, voice data, and independent data.

A frame synchronization pattern adding circuit 13 adds a frame synchronization pattern to the transmission data to which the error correction code is added, and thereafter, the transmission data is interleaved by an interleave circuit 5 and transmitted on the transmission line 100. .

The transmission data on the transmission path 100 is received by the receiving voice receiving apparatus 14, and the bit clock regeneration circuit 7 of the voice receiving apparatus 14 regenerates the bit clock from the frame synchronization pattern included in the transmission data.

Further, the transmission data is deinterleaved by the deinterleave circuit 8 and then subjected to error correction by the error correction circuit 15, and range bits, voice data, independent data, etc. are extracted and output.

[0006]

In the conventional independent data transmission method described above, range bits, voice data,
Since the frame synchronization pattern is added to the transmission data after the error correction code is added to the transmission data such as the independent data, the transmission amount of the range bit, the voice data, and the independent data is the frame in the transmission data. It is limited to the area other than the synchronization pattern.

Therefore, there is a problem that the frame structure of the transmission data to be transmitted must be changed in order to increase the transmission amount of the independent data.

Therefore, an object of the present invention is to solve the above problems and to provide a data transmission apparatus capable of increasing the amount of transmission of independent data without changing the frame structure of transmission data to be transmitted.

[0009]

In the data transmission apparatus according to the present invention, independent data adding means for adding independent data to the head bits of each row data forming the transmission data, and independent data for each head bit are added. Error correction code adding means for generating and adding an error correction code to the transmission data, and the independent data added to the head bit of each row data of the transmission data to which the error correction code is added The transmission source is provided with a replacement unit that replaces with a synchronization pattern.

Further, another data transmission apparatus according to the present invention adds independent data to the head bit of each row data forming the transmission data to generate an error correction code, and the transmission data to which the error correction code is added. Means for receiving a signal in which the independent data added to the first bit of each row data is replaced with a frame synchronization pattern, and error correction is performed based on the error correction code added to the transmission data The receiving destination is provided with means for restoring the independent data from the frame synchronization pattern added to the head bit of each row data, and means for extracting the restored independent data from the transmission data.

[0011]

Next, an embodiment of the present invention will be described with reference to the drawings.

FIG. 1 is a block diagram showing the configuration of an embodiment of the present invention. In the figure, an independent data adding circuit 2 of a voice transmitting apparatus 1 as a transmission source adds independent data having the same number of bits as a frame synchronization pattern to transmission data such as range bits, voice data, and independent data, and performs error correction. It is sent to the code addition circuit 3.

The error correction code adding circuit 3 generates and adds an error correction code to the transmission data to which the independent data is added by the independent data adding circuit 2 and sends it to the frame synchronization pattern replacing circuit 4.

The frame synchronization pattern replacement circuit 4 replaces the independent data of the transmission data to which the error correction code is added by the error correction code addition circuit 3 with a frame synchronization pattern and sends it to the interleave circuit 5.

The interleaving circuit 5 interleaves the transmission data in which the independent data is replaced by the frame synchronization pattern in the frame synchronization pattern replacement circuit 4, and transmits it on the transmission line 100 with the frame synchronization pattern as the head data.

The bit clock reproduction circuit 7 of the audio receiving device 6 which is the receiving side reproduces and outputs the bit clock from the frame synchronization pattern included in the received transmission data on the transmission path 100, and also de-interleaves the transmission data. It is sent to the circuit 8.

The deinterleave circuit 8 deinterleaves the transmission data from the bit clock recovery circuit 7 and sends it to the error correction circuit 9. The error correction circuit 9 corrects the transmission data deinterleaved by the deinterleave circuit 8.

Here, the error correction code added to the transmission data by the error correction code addition circuit 3 of the voice transmitter 1 is range bits, voice data, independent data, etc., and the independent data added by the independent data addition circuit 2. For data and.

Therefore, the frame synchronization pattern of the deinterleaved transmission data is corrected by the error correction circuit 9,
It changes into the independent data added by the independent data adding circuit 2. This independent data is the independent data separation circuit 1
When it is 0, it is separated from the transmission data and is output separately from the range bit, voice data, independent data, and the like.

FIG. 2 is a diagram showing an example of a frame structure of transmission data transmitted in one embodiment of the present invention. In the figure, the transmission data has N rows of 63-bit row data N
It is digital data of × 63 bits, and each row data has an area (1 bit) to which N-bit independent data having the same number of bits as the frame synchronization pattern is added, and an area (range bit, audio data, and independent data) ( 55
Bits) and an error correction code [BCH (63,56)] (7 bits) for the data in these areas.

The independent data adding circuit 2 adds each bit of N-bit independent data, which has the same number of bits as the frame synchronization pattern, to the leading 1 bit of each row data forming the above digital data.

The error correction code addition circuit 3 generates and adds an error correction code to the transmission data consisting of the independent data added by the independent data addition circuit 2, range bits, voice data, and independent data. . Therefore, when looking at each row data forming the above digital data, the error correction code is for 1-bit independent data, 55-bit range bits, voice data, and independent data.

Therefore, even if the independent data added to the transmission data by the independent data adding circuit 2 is replaced with the frame synchronizing pattern by the frame synchronizing pattern replacing circuit 4, the frame synchronizing pattern is error-corrected by the error correcting circuit 9. Then, the independent data is changed to the independent data added by the independent data adding circuit 2.

In other words, since the error correction circuit 9 performs error correction for each row data forming the above digital data, the 1-bit frame synchronization pattern included in each row data is corrected to 1-bit independent data. Will be.

Although FIG. 2 shows digital data of N × 63 bits, it can be applied to other digital data. In that case, the independent data and frame synchronization pattern added to each row data must have the number of bits that can be corrected by the error correction circuit 9.

As described above, the error correction code adding circuit 3 generates and adds an error correction code to the transmission data to which the independent data is added by the independent data adding circuit 2, and the frame synchronization pattern replacing circuit 4 generates the error. The independent data of the transmission data to which the correction code is added is replaced with the frame synchronization pattern and transmitted on the transmission path 100, and the error correction of the frame synchronization pattern of the received transmission data is performed by the code error correction circuit 9 to add the independent data addition circuit. By restoring the independent data added in step 2, the area to which the frame synchronization pattern is added can be used as an independent data area.

Therefore, the transmission amount of independent data can be increased by the same number of bits as the frame synchronization pattern without changing the frame structure of the transmission data to be transmitted.

[0028]

As described above, according to the data transmission apparatus of the present invention, independent data is added to the head bit of each row data forming the transmission data at the source of the transmission data, and the head bit is respectively added. The frame structure of the transmission data to be transmitted is generated by generating an error correction code for the transmission data to which the independent data is added and adding it, and then replacing the independent data added to the head bit of each row data with the frame synchronization pattern. There is an effect that the transmission amount of independent data can be increased without changing.

Further, according to another data transmission apparatus of the present invention, at the receiving end of the transmission data, independent data is added to the head bit of each row data constituting the transmission data to generate an error correction code, Each line of the transmission data to which the error correction code is added A signal in which the first bit of the data is replaced with a frame synchronization pattern, and error correction is performed based on the error correction code added to the transmission data to obtain each line of the transmission data. By restoring the independent data from the frame synchronization pattern added to the first bit of the data and then extracting the independent data from the transmission data, the transmission amount of the independent data is increased without changing the frame structure of the transmission data to be transmitted. The effect is that you can.

[Brief description of drawings]

FIG. 1 is a block diagram showing the configuration of an embodiment of the present invention.

FIG. 2 is a diagram showing a frame configuration example of transmission data transmitted in an embodiment of the present invention.

FIG. 3 is a block diagram showing a configuration of a conventional example.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 voice transmitter 2 independent data addition circuit 3 error correction code addition circuit 4 frame synchronization pattern replacement circuit 5 interleave circuit 6 voice receiver 8 deinterleave circuit 9 error correction circuit 10 independent data separation circuit

Claims (4)

(57) [Claims] 1. An independent data adding means for adding independent data to the head bit of each row data constituting the transmission data, and an error correction code is generated for the transmission data in which the independent data is added to the head bit. The transmission source has an error correction code adding means for adding the error correction code and a replacement means for replacing the independent data added to the head bit of each row data of the transmission data to which the error correction code is added with the frame synchronization pattern. A data transmission device characterized by the above. 2. The data transmission device according to claim 1, wherein the transmission source is configured to interleave and transmit the transmission data in which the leading bit of each row data is replaced with the frame synchronization pattern. 3. An error correction code is generated by adding independent data to the head bit of each row data forming the transmission data, and the error correction code is added to the head bit of each row data of the transmission data. A means for receiving a signal in which the independent data is replaced with a frame synchronization pattern, and error correction is performed based on the error correction code added to the transmission data, and the error correction code is added to the first bit of each row data of the transmission data. A data transmission device comprising: a unit for restoring the independent data from the frame synchronization pattern, and a unit for extracting the restored independent data from the transmission data at a receiving destination. 4. The data transmission apparatus according to claim 3, wherein the reception destination is configured to deinterleave the received transmission data and then restore the independent data.