JPH05122296A - Data transmitter - Google Patents

Abstract

PURPOSE:To facilitate the specification of an error occurrence location on the occurrence of a data error in the data transmission system in which plural devices are connected in cascade so as to send same data. CONSTITUTION:The system is provided with a data output device 1 adding an error check code as part of data and outputting the data with an error check code addition section 1-J, a data repeater 2 or 3 outputting data while the error check code of the inputted data is added and error check of data is implemented by a data error check section 2-D or 3-D on the input of data, and a data receiver 5 using a data error check section 5-D at the data input so as to check the error of the data and implementing data processing.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a data error check in data transmission, and more particularly to a data error check in a data transmission system in which a plurality of devices are cascade-connected to transmit the same data.

[0002]

2. Description of the Related Art Heretofore, this type of data transmission system has only performed an error check on a part of the transmission system of the system, and has not performed an error check on the entire system.

[0003]

The above-mentioned conventional data transmission system has a problem that it is very difficult to specify the error occurrence point because there is no means for distinguishing the error occurrence point once a data error occurs. .. Further, if the frequency of occurrence of data errors is low, it becomes more difficult to identify the location of the error, which is another problem.

The present invention has been made in view of the above problems, and an object of the present invention is to provide a data transmission apparatus capable of promptly identifying an error occurrence point by a data error checkpoint of a data transmission system.

[0005]

A data transmission device of the present invention is a data transmission system in which a plurality of devices are cascade-connected to transmit the same data, and an error check code is added as a part of the data to output the data. A data output device that performs data error check at the time of data input and a data relay device that outputs the data with the error check code of the input data added, and performs an error check at the time of data input and processes the data. And a data receiving device.

[0006]

According to the above construction, an error check is performed at the time of data input from the data output device to which the error check code is added in the data relay device, and the data is sent to the receiving device while the error check code of the input data is added. Since it is output, error check points are spread over the entire transmission system, and the location of error occurrence can be identified.
Fixes can be done quickly.

[0007]

An embodiment of the present invention will be described with reference to the drawings.

FIG. 1 is a system diagram showing a data transmission apparatus according to an embodiment of the present invention.

In the figure, 1 is a data encoding device, 2 is a computer, 3 is a data transmitting device, 4 is a line, 5 is a data receiving device, 1-J is an error check code adding section,
2-D, 3-D and 5-D indicate data error check units. The data encoding device 1 outputs data, the computer 2 and the data transmitting device 3 relay data, and the data receiving device 5 performs data receiving processing.

Next, the operation will be described.

The error check code adding section 1-J adds an error check code to the compressed data coded by the data coding apparatus 1 as a part of the compressed data.
It is input to the computer 2. The computer 2 performs an error check in the data error check unit 2-D of the input unit and fetches the data. The compressed data stored in the computer 2 is output to the data transmission device 3 according to the instruction of the operator. The output data includes the error check code from the data encoding device 1. The data transmission device 3 performs an error check on the data in the data error check unit 3-D of the input unit, and outputs the data to the data reception device 5 via the line 4.

The data receiving device 5 processes the data by removing the error check code from the compressed data after the error check is performed by the data error check unit 5-D of the input unit.

In each of the computer 2, the data transmitting device 3, and the data receiving device 5, when an error is detected at the time of error check, the computer is notified on the error display or procedure on each device.

FIG. 2 is an explanatory diagram showing an example of the data error check system of the present invention.

6-n is the first byte, 2nd byte ... nth byte of the data 6, 6-p is the horizontal parity code of the data 6, and 7-0 is The 0th bit of data 6, 7-1 is the 1st bit of data 6, 7-6 is the 6th bit of data 6, and 7-p is the data 6
, A vertical parity code of 8, and 8 indicates the transmission order of the data 6. The data 6 has the first byte 6-1, the second byte 6-2, ...
The data is output in the order of the n-th byte 6-n.

The vertical parity code 7-p is D1p, D2.
p ... Dnp. 1st byte data 6-1
D1p indicates the parity code of the data D10 to D16. Similarly, D2p of the second byte data 6-2 indicates the parity code of the data D20 to D26, and Dnp of the nth byte data 6-n indicates the parity code of the data Dn0 to Dn6. Horizontal parity code 6-p is Dp0, Dp
1 ... Dp6, Dpp, and represents a parity code of the data 6 in bit units. The 0th bit Dp0 indicates the parity code of the 0th bit data D10 to Dn0.
Similarly, Dp1 is a parity code of D11 to Dn1, Dp2 is a parity code of D12 to Dn2 ... Dpp.
Indicates a parity code of D1p to Dnp. That is,
The vertical parity codes D1p to Dnp perform vertical parity check of data, and the horizontal parity codes Dp0 to Dpp perform horizontal parity check of data. Finally, the receiving device 5 removes the parity codes 6-p and 7-p and performs data processing.

As described above, as a redundant bit addition method in error control, a parity check having a simple structure is used to perform a check for each relay device, so that an error occurrence point can be identified early to ensure system reliability. Therefore, it is more efficient than performing large-scale error control in the final receiving stage.

[0018]

As described above, according to the present invention, in a data transmission system in which a plurality of devices are cascade-connected to transmit the same data, an error check code is added to the data, and the data relay device and the data receiving device are provided. By performing an error check on the data in the input unit, it is possible to easily identify the error occurrence point when the data error occurs.

[Brief description of drawings]

FIG. 1 is a system diagram showing a data transmission device according to an embodiment of the present invention.

FIG. 2 is an explanatory diagram showing an example of a data error check method of the present invention.

[Explanation of symbols]

1 Data Encoding Device 2 Computer 3 Data Transmitting Device 4 Line 5 Data Receiving Device 2-D, 3-D and 5D Data Error Checking Unit 6 Data 1-J Error Checking Code Adding Unit 6-p Horizontal Parity Code of Data 6 7 -P Vertical parity code 6 of data 6-1, 6-2 to 6-n 1, 2 to n bytes of data 8 7-0, 7-1 to 7-6 Bits 0 to 1 to 6 of data 6 8 Data transmission order

Claims (1)

[Claims] 1. A data transmission system for connecting a plurality of devices in cascade to transmit the same data, and a data output device for outputting data by adding an error check code as a part of the data, and an error check of the data at the time of data input. Data transmission characterized by having a data relay device that outputs data while adding an error check code to the input data and a data receiving device that performs an error check on the data at the time of data input and processes the data. apparatus.