SU467484A1 - Nodal synchronization device of convolutional decoder - Google Patents

Description

one

The invention relates to systems for transmitting information over communication channels.

A nodal synchronization device of a convolutional decoder is known that contains a node for allocating and allocating a sequence of received channel symbols whose outputs are connected to the input of a decoder, a code generator connected through a modulo two, the output of which is connected to a solver and decisive ground to the input of the allocation and sequence distribution node received channel symbols.

However, the known device has a relatively low noise immunity.

In order to improve the noise immunity in the proposed device, one of the outputs of the node for allocating and distributing the sequence of received channel symbols is connected to the corresponding adder modulo two through the input delay line, and the decoder output is connected to the input of the code generator.

The drawing shows a block diagram of the proposed device nodal synchronization.

The device comprises a node 1 for allocating and allocating a sequence of received channel symbols, a delay line 2, a code generator 3, a decision node 4, a decoder 5, and an adder 6 modulo two.

2

The device works as follows. The signal coming from the output of the communication channel in the node for allocating and distributing the sequence of received symbols is converted into two sequences of z, (D} iiZ2 (D).

At the initial moment, the indicated sequences can be formed from the received signals corresponding to the output sequences from the code generators gi (D) and g2 (D) in the encoder, but it can be with 1/2 probability and inverse relationship. One of these sequences through the delay line 2 (for example, digital) is fed to the input of the adder 6 modulo two, the second input of which receives the sequence from the output of the code generator 3 (minimum weight), and its input is decoded information from the output of the decoder 5. If the separation of the sequences at the output of node 1 is done correctly, then at the output of the decoder the information corresponds (in a probable sense) to the information at the input of the encoder, and the output from the code generator 3 also corresponds to the output from the code for generators gi (D) encoder. The delay line 2 must have a delay equal to the total signal delay in the processing at decoder 5 and generator 3. In this case, in the absence of noise in the communication channel from the output of the adder to

module two arrive at the decision node 4 alone. If the division of the sequence at the output of node 1 is done incorrectly, then the output of the adder 6 comes with a probability of 1/2 unit.

Solving node 4 has a drive and a threshold by which it decides on the correctness or incorrectness of the separation of the sequences at the output of node 1. and accordingly in the latter case switches them, i.e., establishes node synchronization.

Due to the fact that the variance of each of the output symbols from the modulo two is determined by the variance of one channel symbol delayed in delay line 2, and the sum of variances of output symbols from decoder 5, where the number of terms of the last sum is determined by the weight of the code generator 3, and since the dispersion of the output symbols from the decoder is significantly less than the variances of the input symbols, the resulting dispersion of symbols

the input of the decision node is smaller, as a result of which the noise immunity of the node synchronization is increased.

Subject invention

A nodal synchronization device of a convolutional decoder containing a node for allocating and allocating a sequence of received channel symbols, the outputs of which

connected to the input of the decoder, a code generator connected through a modulo two adder and a decisive node to the input of the allocation node and the distribution of a sequence of received channel symbols, characterized in that, in order to improve noise immunity, one of the outputs of the allocation node and the distribution of a sequence of received channel symbols through The input delay line is connected to the corresponding input of the modulo two adder, and the decoder output is connected to the input of the code generator.