SU1287216A1 - Method of transmission of discrete signals - Google Patents

Abstract

The invention relates to telecommunications and can be used in digital information transmission systems. The invention increases the capacity of the communication channel due to the fact that, when transmitting a binary pulse signal of the main source, this signal is converted into a relative bi-pulse signal with a passive pause fixed on the elementary half-period, while transmitting the binary pulse signal of an additional source in the relative bi-pulse signal the next two one after another pulse signal corresponding to the transmission of one zero pulse of the binary pulse signal of the main source, Put in places with one value of the binary pulse signal of the additional source and remain unchanged at a different value of the binary pulse signal of the additional source. I il. i (L

Description

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The invention relates to telecommunications and can be used in digital information transmission systems.

The aim of the invention is to increase the capacity of the communication channel.

The drawing shows timing diagrams for explaining the operation of the method, where the following symbols are taken: binary pulsed signals of 1 main source, relative bi-pulse signal 2 with a fixed semi-passive pause, where the pause is fixed, in particular, on the second half-interval zero of the main information, 3 binary information signals of an additional compacting source, a relative biopulse signal 4 with a semi-passive pause.

The method of transmitting discrete signals is that when transmitting a binary pulse signal 1 of the main source, this signal is converted into a relative bi-pulse signal 2 with a passive pause fixed on the elementary half-period.

When transmitting a binary pulse signal 3 of an additional source in a relative bi-pulse signal 2 with a passive pause fixed on the elementary half-period two, following 1x one after another, the pulse signal corresponding to the transmission of one zero pulse of the binary pulse signal 1 of the main source at one value of the binary pulse signal 3 of the additional source, and left unchanged at a different value of the binary pulse signal of the additional source.

So, for example, if the zero of the main information is matched with b, the pulse of +1.0 or -1.0, then at a single value of the signal of the compacting source at the time zero of the main information, a biopulse O, +1 or O, -1 is formed, and at The biopulse is left unchanged, i.e. +1.0 or -1.0. In this case, the amount of additional information transmitted op162

determined by the number of zeros in the base of information.

The drawing shows the permutation of the biopulses of the signal at the positions of the zeros of the basic information, at the moments of which the information of the densifying source has single values (b, d). In the remaining cases, the bi-pulses of the uncompacted and compacted sequence remain unchanged (a, b, d, f, g).

In this way, forward-fI increases the capacity of the communication channel, providing, along with the transmission / basic information, the transmission of additional information in the same communication channel.

Claims (1)

Invention Formula The method of transmitting discrete signals, which consists in converting a binary pulse signal of the main source into a distinctive bi-pulse signal by generating two pulse signals of opposite polarity on the interval of one single pulse of the binary pulse signal of the main source, and in the interval of one zero the pulse of the binary pulse signal of the main source - two successive pulses, the first of which is a single pulse, the turn polarity, and the second - a zero pulse, and transmit the generated relative bi-pulse signal to the communication channel, characterized in that, in order to increase the transmission capacity of the communication channel, the binary pulse signal of the additional source is transmitted by forming a relative bi-pulse signal and on the interval of one zero pulse of the binary pulse signal of the main source with one value of the binary pulse signal of the additional source of two successive pulses, the first M of which is a zero pulse, and the second is a single pulse of alternating polarity.