SU559412A1 - Method of transmitting and receiving signals - Google Patents

Description

one

The invention relates to communication technology and can be used in multi-channel systems with redundant redundant telemetry measurement information.

The known method of transmitting and receiving signals, consisting in preliminary sampling and sequential polling on the transmitting side of information channel signals, separates from the obtained discrete samples of non-redundant signals of each of the information channels forming the transmission frame, storing non-redundant signals containing the address and information part, reading And transmitting non-redundant signals of each of the K channels to read and restore the signals of the information channels on the receiving side, taking into account the time the allocation of non-redundant signals on the transmitting side l.

However, the known method of transmitting and receiving signals has a low accuracy of transmitting and restoring sleepers due to the fact that the signals are temporarily assigned with an accuracy not exceeding the reading period.

The purpose of the invention is to improve the accuracy of transmission and restoration of signals.

Claims (1)

For this, in the known mode of transmission and reception of signals in the N-channel telemetry system, consisting in pre-sampling and sequential polling on the transmitting side of signals I1 {formation channels, extracting from the received discrete samples the non-redundant signals of each of the information channels forming the transmission frame, storing non-redundant signals containing the address and other (|) ormatious part, readings and transmission of non-redundant signals each on the read and restore channels of K; 1en1 and signal. | Op.ncioJn YX channels at the reception CTOpoFie taking into account the time allocated for the excess signals to the recipients, before transmitting the non-redundant signals; | signal, and the transmission of the unshakable signal j-gc from the K channel, the reading of the signal is carried out simultaneously with the allocation of a non-continuous signal of the i th of the N information channels, and when the signals are received at the receiving side, the expiration time accurate signal The initial information channel of the transmission frame is determined by the formula: where I is O, with j M – P K $ K 1–1, with 5 m-RLC, is the time of receiving an overhead sig signal NUMBER of populated frames; - the release time of the unreduced tr K N. signal In the N channel system, on the transmitting side, a sequential interrogation of signal 110 of information channels is performed. The polling time T is the same for each information channel dp. At the same time, as a result of the analysis of pre-sampled 1–1b x samples (samples) of signals from each information channel, you received non-redundant signals. Significant non-existent signals of all and formation channels form a transmission frame, the time of which is H-C. Then, the values of each of the non-redundant signals of the transmission frame (information part), Ain number (| of the legal channel, in which the address signal part), as well as the number M, corresponding to the number of stored # 1x unread signals of the counting signals / taking into account that before storing this signal, the M-1 signal was already waiting for the signal to be read. After that, the non-redundant signals were sent to 1 every from To channels read to the transmission channel. To ensure that the average frequency of transmission of transmission signals to the receiving side is constant, the transmission of each j-i non-redundant signal from the K channels is carried out simultaneously with the selection of the non-redundant signal from the N information channels with known numbers of the information channels. taking into account the release of non-existent signals at the transmitting cTopoiie. At the same time, according to the received data of unused signals — the information part, the address part A and the number L of the stored unreadable non-redundant signals, first the exact allocation of the non-redundant signal of the initial information channel of the transmission frame is determined by the form: (.) 3, “O. with jtM- PKfKifn 1, when K ;, ig is the time of reception of an overnight ignal; p is the number of transmitted full cad-g - the time of selection of the non-redundant signal, K 4 $ S, and then the time of df division (t. & time measurement; the received non-redundant signal for A-th after the initial number of the information channel as ttt Ar to-rfi N (Pcc-d) -A, since in the A-th information channel number, the non-redundant signal will be allocated through A. periods after the selection of the non-redundant signal in the initial channel. Thus, the inaccuracy in determining the i i time of the non-redundant the signal is eliminated, resulting in a 10-20% increase in accuracy n Signal Transmission and Restoration. Formula of Invention A method of transmitting and receiving signals in an N-channel telemetry system, consisting in pre-sampling and sequential polling on the transmitting side of information channel signals, extracting non-redundant signals from each of the information channels forming a transmission frame from the received discrete samples. memorizing non-redundant signals containing the address and information part, reading to transmit non-redundant signals of each of the K channels In order to improve the accuracy of signal transmission and recovery, before storing non-redundant signals, a code is generated that corresponds to the number M of stored unreadable non-redundant signals, which memorize and transmit as part of each non-redundant signal, and transmitting the non-redundant signal of the j-th K channel to read it simultaneously with the selection A non-redundant signal of the i-th of the N information channels, and when recovering signals at the receiving side, the allocation time of the non-redundant signal, the initial information channel of the transmission frame, is determined by the formula:) 3,. to where tr Oh, with the s m-PK45: k; 5 d 1 with J M-KiK; tj, is the time of reception of the un & 1 point signal;} —number of complete frames transmitted; 17 Isolation time of a non-fault signal,. Sources of information accepted in the examination: 1. Copyright testimony of the USSR No. 442471, M. Kl. Q About F 7/00, 1972.