RU2002118735A - The method of transmitting discrete information in a computer network - Google Patents

Claims (5)

1. A method of transmitting discrete information in a computer network, including at the transmitting end dividing the input signal into blocks of length n bits, generating a security key in the form of a binary vector of length k bits, supplying it for the initial filling of a shift register with feedback having k bits and generating a pseudo-random sequence of maximum length containing 2 ^k -1 binary characters, the formation of a binary vector of a pseudo-random sequence by simultaneously collecting information from various bits of the shift register, while the length of the binary vector of the pseudo-random sequence is chosen equal to the length of the binary vector of the input signal block, the coding of the block of the input signal by modulating two bits of the binary vector of the pseudorandom sequence with the bits of the binary vector of the input signal block and the subsequent transmission of the encoded message over the communication line, receiving a signal at the receiving end of the communication line, forming a security key in the form of a binary vector of length k bits, supplying it for the initial fill changing the feedback shift register with k bits, as well as generating, on the transmitting side, a binary vector of a pseudorandom sequence of length n bits, decoding the packet by modulating its two bits with the bits of the binary vector of the pseudorandom sequence and supplying an information signal to the terminal device characterized in that on the transmitting side, a second binary vector of the pseudo-random sequence is additionally formed by simultaneous parallel Nogo removing information from other n different bits of the shift register and converts the input signal encoded block by adding modulo P = 2 ⁿ number corresponding to a coded input signal block with a number corresponding to a second binary vector of the pseudo-random sequence, and the reception side is further formed similarly and to the transmitting side, the second binary vector of the pseudo-random sequence, convert it to a conjugate binary vector by subtracting from the number P the number corresponding to w rum pseudorandom binary vector sequence and restore the encoded block of the input signal by adding modulo P number corresponding to the binary vector conjugate pseudorandom sequence number corresponding to the binary vector encoded message. 2. The method according to claim 1, characterized in that an additional security key is generated and a random binary vector of length k bits is generated for each communication session, a binary vector is created for the initial filling of the shift register by adding two bits of the random binary vector with the primary key bits modulo security, and an additional security key is used to encode and transmit to the receiving end of the communication line a random binary vector. 3. The method according to claims 1 and 2, characterized in that those clock cycles of the shift register are skipped for which the symbols of the generated binary vectors of pseudorandom sequences coincide in all or several selected bits. 4. The method according to claims 1 to 3, characterized in that at each communication session, the numbers of the bits of the shift register are changed, from which the information is removed for generating binary vectors of pseudorandom sequences depending on the generated binary vector of the initial filling of the shift register. 5. The method according to claims 1 to 4, characterized in that during each communication session, the order of reading information from the selected bits of the shift register is changed to form binary vectors of pseudorandom sequences depending on the generated binary vector of the initial shift register filling.