RU2012134C1 - Device for correcting errors in repeated messages - Google Patents

Abstract

FIELD: telemechanics and pulse circuitry. SUBSTANCE: device has shift registers, counter of units number code, calculating rules unit, control unit. The device corrects all fold errors and some fold ones within the entire information frame consisting of blocks. EFFECT: improved noise immunity. 4 dwg

Description

 The device relates to telemechanics and pulse technology and can be used in transmission and processing of discrete information to correct errors that occur in communication channels.

 The goal is to increase noise immunity.

 In FIG. 1 is a structural electrical diagram of a device for correcting errors during repeated repetition of messages; in FIG. 2 is an embodiment of a code counter of the number of units; in FIG. 3 is a structural electrical diagram of a control unit; in FIG. 4 - block decision rules.

 A device for correcting errors in repeated repetition of messages contains a shift register 1-4, a counter 5 for the number of units code, a block 6 of decision rules, a control unit 7.

 Counter 5 code of the number of units contains the first element NOT 1, the first and second elements OR 5, the third element AND 6, the second element OR 7, the third element NOT 8, the fourth and fifth elements AND 9, 10, the fourth element NOT 11, the sixth and seventh elements AND 12, 13, the fourth element NOT 14, the third element OR 15, the eighth element AND 16, the fourth element OR 17, the fourth element NOT 18, the tenth and tenth elements AND 19, 20, the first, second, third and fourth triggers 21- 24. The control unit 7 contains the elements AND 1-7, the elements OR 8, 9, the RG-trigger 10, the n-bit counter 11, the six-bit counter 12, the decoder 13. The decision rule block 6 contains the elements AND 1-6, the OR element 7, the elements AND 8-19, elements OR 20, 21, elements AND 22, 23, element OR 24.

 A device for correcting errors with repeated retransmission works as follows.

 A pulse is received at the first input of the control unit 7, indicating that a frame marker of the message repetition sequence has been received from the communication channel. This pulse resets the counters 11, 12. The pulse comes to the second input of the control unit 7, indicating the presence of a repeat marker. From this moment on the first output appears the control potential P1, P7. The first clock goes to the sync input of the code counter of the number of units and the clock inputs of the registers. Simultaneously with the first clock pulse, the first information symbol of the first repetition arrives at the first (information) input of the code counter of the number of units. If the first element is “1”, then the trigger 21 will be transferred to “1” under the influence of the clock pulse and “1” will be written into the register RG 1, after which the trigger will be reset to zero by the slice of the clock pulse. Thus, at the end of the first repeat, it will be recorded in the register RG 1. Then follows a pause corresponding to the duration of the repeat marker.

 After the marker of the second repetition ends, the first sync pulse arrives at the sync input of the counter of the number of units simultaneously with the information pulse at the first input of the counter, the first character of the first repetition from the register RG 1 (due to the lack of control potential P1). If the first element of both repeats is “1”, then “1” is written to the register RG 1, and “0” is written to the register RG 2, if one of the repeating elements is “0” and the other is “1”, then it is written to the register RG 1 "1", and in the register RG 2 - "0", after the end of the clock pulse triggers 21, 22 are reset and ready to receive the following characters.

 After the end of two repetitions, the code of the number of units of two repetitions is recorded in the registers RG 1, RG 2 and a pause begins, corresponding to the duration of the repeat marker. With the arrival of the elements of the third repeat from the outputs of the registers RG 1 and RG 2, the code for the number of units of the first and second repeats promoted by the sync pulses from the control unit 7 is sent to the second and third inputs of the counter 5 of the number of units. On the counter 5 of the code of the number of units, a code of the number of units of three repetitions of the message is generated, which from the outputs of the triggers 21, 22 is recorded in the registers RG 1 and RG 2 and simultaneously from the output of the trigger 22 it enters the fifth input of the block 6 of the decision rules, where, using the control potential P5 goes to the output of the device. This is the result of majority processing "in three" of the first three repetitions.

 From this moment, the control potential P7 supplied to the third control input of the unit code counter 5 is terminated. In the next three (fourth, fifth, sixth) repetitions, the code of the number of units of the first three repetitions in the registers RG 1, RG 2 will be rewritten from the output through the counter 5 of the code of the number of units to the input of each register without changes. After the fourth repetition, it will be recorded in the register RG 3.

 In the registers RG1-RG2, the code for the number of units of the first three repetitions is recorded.

 The first element of the fifth repetition enters the counter 5 of the code of the number of units simultaneously with the first element of the fourth repetition supplied from the output of the register RG 3 to the fourth input of the counter 5 of the code of the number of units. After each symbol, triggers 21-24 are reset, which gives a character-by-symbol processing of information. The code of the number of units of the fourth and fifth repetitions from the third and fourth outputs of the counter 5 of the code of the number of units is sent simultaneously to the inputs of the registers RG 1, RG 2 and to the seventh, tenth inputs of the block 6 of the decision rules, the second and fifth inputs of which receive the code of the number of units of the first, of the second and third repetitions, recorded in the registers RG 1, 2. Using the control potential P3 and elements 15-19, 21, 23 of the block 6 of the deciding rules, the result of majority processing "five" goes to the output of the device. At the end of the fifth repetition, the code for the number of units of the first three repetitions is recorded in the registers RG 1, RG 2, and the code for the number of units of the fourth and fifth repetitions in the registers RG 3, RG 4.

 With the beginning of the sixth repetition, in the counter 5 the code of the number of units at the outputs of the triggers 23, 24, the code of the number of units of the fourth, fifth, and sixth repetitions is generated, and from the fourth output of the counter 5 of the code of the number of units, the result of majority processing “in three "using the control potential P6 and the element And 10, which is fed to the output of the device. The sixth repetition ended: in the registers RG 1, RG 2 - the code of the number of units of the first, second, third repetitions; in the registers RG 3, RG 4 - the code of the number of units of the fourth, fifth and sixth repetitions.

 The first element of the seventh repetition arrives simultaneously at the first input of the code counter of the number of units and at the first input of the block 6 of the decision rules. From the outputs of the registers RG 1, RG 2, RG 3, RG 4 to the inputs 3, 4, 6, 8 of block 6 of the decision rules, code elements of the number of units of the first three and second three repetitions are supplied. Using the control potential P1 and elements 1-9 of the counter 5 of the code of the number of units, a majority decision of seven is made; which through the element OR 24 is fed to the output of the device. Entering the first input of counter 5, the code for the number of units, the seventh repeat is written to the register RG 1. At the end of the seventh repeat, the registers RG 3, RG 4 contain the code for the number of units of the fourth, fifth, and sixth repetitions, in the register RG 1 - the seventh repeat, the register RG 2 is reset by the control potential P1.

 After that, the information processing process resumes.

Claims (1)

 DEVICE FOR CORRECTING ERRORS AT REPEATED REPEATING OF MESSAGES, containing a code counter of the number of units, the first input of which is connected to the first input of the decisive block, as well as the first, second and third shift registers, the inputs of which are connected respectively to the second, fifth and seventh inputs of the decisive block, to the third, fourth and sixth inputs of which, as well as the second, third and fourth inputs of the code counter of the number of units, the outputs of the first, second and third shift registers are connected, respectively, characterized in that, In order to increase noise immunity, a fourth shift register and a control unit are introduced into it, the first and second outputs of which are connected respectively to the first and second control inputs of the unit number counter and the decisive block, and the third and sixth control inputs of which are connected respectively to the outputs of the same control unit, the seventh and the eighth outputs of which are connected to the third and fourth control inputs of the code counter of the number of units, the first - fourth outputs of which are connected to the inputs of the first, respectively - the fourth shift registers, while the ninth output of the control unit is connected to the sync inputs of the code counter of the number of units of the first to fourth shift registers, and the output of the fourth shift register is connected to the eighth input of the decision block and the fifth input of the code counter of the number of units, and the input of the fourth shift register is connected to the ninth the input of the decisive block.

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