RU2707572C1 - Method for adaptive data transmission in a radio link with pseudo-random tuning of operating frequency - Google Patents

Abstract

FIELD: radio engineering and communication.

SUBSTANCE: invention relates to radio communication and can be used in adaptive radio lines with pseudo-random tuning of operating frequency. Method consists in elimination of unusable frequencies during operation of a radio link and communication only at frequencies with required quality, which increases time of continuous serviceable operation of a radio link, and is characterized by that, at the transmitting end of the radio link, based on the correspondent frequency status list, determining transmission frequencies, generating a digital test sequence which, in combination with a frequency state list, is added in the form of a service slot to the information frame, emitting modulated slots into space, on the receiving side, selecting a service slot, dividing the test sequence and the correspondent frequency status list, determining the number of incorrectly received bits of the test sequence, deciding on frequency exclusion, generating a new frequency state list, if the specified number of unusable frequencies is exceeded, all frequencies in the status list are determined to be suitable.

EFFECT: high timeliness of transmitting messages in a noise-protected radio link with pseudo-random tuning of operating frequency.

1 cl

Description

The invention relates to the field of radio communications and can be used in adaptive radio links with pseudo-random tuning of the operating frequency.

A known method of generating a signal with pseudo-random tuning of the operating frequency, described in RF patent No. 2279760 (published July 10, 2006) "Method and line of radio communication with pseudo-random tuning of the operating frequency", Bokk OF, Makovy V.A., Borisov V. AND. In this method, after broadband filtering, the signal is fed to the “K” identical parallel paths, each of which sequentially attenuates the signal as a function of time and its narrow-band filtering, moreover, during the length of time the signal from the transmitter arrives at the tuning frequency of a band-pass filter tunable by frequency the attenuation is minimal, before the transmitter signal arrives at the aforementioned frequency, the attenuation monotonically decreases from maximum to minimum, after the end of the transmitter signal at the same pilots at attenuation increases monotonically from minimum to maximum, the output signals are summed and demodulated to provide a time synchronization circuit adjustment for the clock frequency transmitter - receiver is shifted to the desired value, and the restructuring of the frequency of each bandpass tunable filters is done rarely in the "K" times.

A known method of generating a signal with a pseudo-random tuning of the operating frequency, described in RF patent No. 2520401 (publ. 04/10/2014) "A method of increasing the secrecy of a radio-emitting means in a radio line with a pseudo-random tuning of the working frequency", Tsimbal VA, Shimanov SN etc. In this method, at the transmitting end, the input signal is divided into blocks of information presented in binary form when the signal is emitted into space at the frequency position ƒ _{j of the} clock pseudo-random tuning of the operating frequency at the time the flight-and-flight radio reconnaissance means enters the lobes of the directional diagram the antenna of the radio-emitting means, a reflected signal arises, propagating, including, towards the antenna of the radio-emitting means. After the end of the radiation by the radio emitting means of the radio signal at a given pseudo-random tuning of the operating frequency, the frequency of the emitted radio signal ƒ _j changes by ƒ _k . The frequency of the previous beat of the pseudo-random tuning of the operating frequency ƒ _j for transmission is freed, at the same time the receiver tuned to ƒ _{j is} turned on, and the presence of the reflected signal is analyzed. In the presence of a reflected signal, the radio-emitting means turns off its transmitter during the flight by the flight-lifting means of radio reconnaissance of the lobe of the directional diagram of its antenna.

The disadvantage of the above methods is the lack of adaptation to the changing conditions of radio communications when exposed to deliberate interference, and, as a result, the low value of the timeliness of data transmission in such radio links.

The closest in technical essence to the claimed method is the method according to the patent Radko N.M., Dryuchenko A.A., Mokrousov A.N. "The method of adaptive data transmission in radio lines with pseudo-random tuning of the operating frequency", patent of the Russian Federation No. 2356167 according to the application 2007149341/09 of 12.29.2007, adopted as a prototype. According to the prototype method, at the transmitting end of the radio line, the information speed is converted to technical speed with the release of information packets consisting of frames and slots, the values of the variables for the formation of which are determined during the radio communication, the modulation of information and service slots at the corresponding transmission frequencies in accordance with the first pseudorandom sequence; at the receiving end, the received signal is divided into service and information parts, for the service part at the appropriate frequencies, in accordance with the second pseudorandom sequence, the transmission channel is selected, the clock signal is formed, the peaks of the cross-correlation function for accurate synchronization during demodulation, the quality of the received synchronization sequence is analyzed, which used to determine the probability of an error on the service bit, which is transmitted in the service frames to the transmitting side Well, for the information part, service frames are demodulated at the corresponding reception frequencies in accordance with the first pseudorandom sequence, the values of the variables obtained during demodulation are used to form the next packet, and the quality of the information is analyzed using the received information frame and the error is allocated to the information bit, which is transmitted to service frames to the transmitting side, and also used to calculate the probability of the correct reception of possible methods of interference oychivogo coding.

The functional model of the radio link presented in the prototype method is based on the application of a noise-resistant code of majority processing depending on the destructive effect of interference: when the transmission quality is degraded, the transmission speed of information is reduced, which reduces the rate of message transmission.

Thus, the disadvantage of the prototype method in the conditions of deliberate interference is the low value of the timeliness of data transmission in a radio line with a pseudo-random tuning of the operating frequency.

The aim of the invention is to increase the timeliness of data transmission in an interference-free radio line with a pseudo-random tuning of the operating frequency.

The technical result of the proposed method is to increase the time of proper operation of the radio line on a dedicated group of operating frequencies.

The claimed technical result is achieved by the fact that in the method of adaptive data transmission in a radio line with pseudo-random tuning of the operating frequency, including at the transmitting end converting the information speed into a technical one, extracting information packets consisting of frames and slots, modulating service slots at the corresponding transmission frequencies in accordance with the first pseudo-random sequence and information slots at the respective transmission frequencies in accordance with the second pseudo-random sequence radiation, modulated slots into space, at the receiving end of the radio line — dividing the received signal into information and service parts, for the service part at the appropriate frequencies, in accordance with the second pseudorandom sequence, select a transmission channel, generate a clock signal, peaks of the cross-correlation function for accurate synchronization during demodulation , conduct an analysis of the quality of the adopted sync sequence, which is used to determine the probability of errors in the service the second bit, which is transmitted in the service frames to the transmitting side, for the information part, the service frames are demodulated at the corresponding reception frequencies in accordance with the first pseudorandom sequence, the values of the variables obtained during demodulation are used to form the next packet, and the information quality is analyzed using the received information frame with highlighting the error on the information bit, which is transmitted in the service frames to the transmitting side, and also used for calculating The probability of the correct reception of possible methods of error-correcting coding differs in that at the transmitting end of the radio line, based on the list of correspondent frequency states, the transmission frequencies are determined, a digital test sequence is formed, which together with the list of frequency states is added as a service slot to the information frame, modulated slots into space, on the receiving side they allocate a service slot, share the test sequence and the list of frequencies Dent, determine the number of bits incorrectly received test sequence, taking a decision to exclude frequencies form a new list of frequency state when exceeding a predetermined amount unsuitable frequencies, all frequencies in the list of states is determined suitable.

Due to the introduction of a new set of essential features by eliminating unusable frequencies during the operation of the radio line and communicating only at frequencies with the required quality, the time of continuous serviceable operation of the radio line is increased, which makes it possible not to reduce the data transfer rate, as in the prototype method, when the conditions worsen radio communication and, thus, increases the timeliness of data transmission in a radio line with a pseudo-random tuning of the operating frequency.

The inventive method is implemented as follows.

At the transmitting end of the radio link is carried out:

1. Conversion of information speed to technical, allocation of information packets consisting of frames and slots. These procedures coincide with the prototype method.

2. Modulation of the service slots at the corresponding transmission frequencies in accordance with the first pseudo-random sequence and information slots at the corresponding transmission frequencies in accordance with the second pseudorandom sequence, the emission of the modulated slots into space. The implementation of the above steps is similar to the prototype method.

3. Based on the list of the status of the frequencies of the correspondent determine the transmission frequency.

The list of frequency states is a codeword consisting of zeros and ones with a total number equal to the number of operating frequencies, and zero means the frequency is unusable (exclusion from the list of frequencies), the unit is usability, the bit position in the codeword is the number of the operating frequency. For example, the code combination 01001111111111 means that 14 operating frequencies are used for transmission, the first, third and fourth frequencies being unusable and therefore should be excluded.

Based on the determination of the operating frequencies, the pseudo-random sequence 1 and the pseudo-random sequence 2 are transformed so that the transmission is carried out on the list of suitable frequencies. The process of converting a pseudo-random sequence consists in fixing random numbers determined by the structure of the pseudo-random sequence to suitable frequencies. This operation is known and is given, for example, in [RF Patent No. 2273099 “Radio link with software tuning of the operating frequency”, the authors Pshenichnikov AV, Semisoshenko MA] and that the decoder as part of a pseudo-random sequence generator converts the code from the output of the comparator to the code of the corresponding frequency.

4. A digital test sequence is formed, which together with a list of frequency states is added as a service slot to the information frame, modulated slots are emitted into space.

The operation of generating test sequences is known and is given, for example, in [RF Patent No. 2142197 “Method and system for testing a digital communication channel with variable or fixed data rates”, authors Edward G. Tidemann (Jr.) (US), Yu-Cheung Zou (CN), Lindsay A. Weaver (Jr.) (US), Gwaine Bailey (GB)], which consists in the fact that the test sequence of digital data transmitted over the communication channel is received at the receiving station, which also generate a copy of the test sequence digital data. The accuracy of the transmission over the communication channel is then determined by comparing a copy of the test sequence of digital data with the test sequence of data received on the communication channel. The formation of information frames is carried out similarly to the prototype method.

At the receiving end of the radio link:

5. Separate the received signal into information and service parts, and for the service part at the appropriate frequencies in accordance with the second pseudo-random sequence, select a transmission channel, generate a clock signal for demodulation, analyze the quality of the received clock sequence to determine the probability of an error on the service bit, which is transmitted to service frames to the transmitting side. These procedures are fully consistent with the prototype method.

6. For the information part, service frames are demodulated at the corresponding reception frequencies in accordance with the first pseudorandom sequence, and the values of the variables obtained during demodulation are used to form the next packet, and the received information frame is used to analyze the quality of the information with highlighting the error for the information bit that is transmitted in service frames to the transmitting side, and also used to calculate the probability of the correct reception of possible methods of interference oychivogo coding supply destination information.

These steps are identical to the prototype method.

7. A service slot is allocated, the test sequence and the correspondent frequency status list are shared, the number of test sequence bits received incorrectly is determined, a decision is made to exclude the frequency, a new frequency status list is formed, if a specified number of unusable frequencies is exceeded, all frequencies in the status list are determined to be suitable.

The process of separating the test sequence and the frequency status list is based on the known number of bits of the test sequence and the frequency status list. The number of bits of the test sequence is allocated, the remaining bits belong to the list of frequency states.

The determination of the number of incorrectly received bits of the test sequence is based on a comparison of a copy of the received sequence and the known structure of the test sequence. In case of exceeding the distorted characters of the set threshold value, a decision is made to exclude the operating frequency. The error threshold is determined by the specified requirements for the reliability of message transmission and can be set in the form of source data. For example, no more than one error at a given frequency.

In the frequency status list, unsuitable frequencies are marked with zeros, so a new list of frequencies is formed.

If the specified acceptable value of the unusable frequencies is exceeded, in order to maintain the program tuning mode, all frequencies are determined to be suitable.

Thus, by eliminating unsuitable frequencies during the operation of the radio link and communicating only at frequencies with the required quality, the time of continuous serviceable operation of the radio link is increased, which makes it possible not to reduce the data transfer rate, as in the prototype method, with the deterioration of the conditions for radio communications, that, with additional adaptation of the encoding method and the duration of the information bit, it improves the timeliness of data transmission in an interference-protected radio line with a pseudo-random Oh reorganization of the working frequency.

Based on the proposed method, a simulation model of a radio line with a pseudo-random tuning of the operating frequency is constructed. Evaluation of the indicators of timeliness on the basis of the developed model revealed an increase in the timeliness of data transmission up to 20% compared with the prototype method.

Claims (1)

A method for adaptively transmitting data in radio lines with pseudo-random tuning of the operating frequency, including converting the information speed into a technical one at the transmitting end, extracting information packets consisting of frames and slots, modulating service slots at the corresponding transmission frequencies in accordance with the first pseudo-random sequence and information slots on the corresponding transmission frequencies in accordance with the second pseudo-random sequence, the radiation of modulated slots in space in, at the receiving end of the radio line - the separation of the received signal into information and service parts, for the service part at the appropriate frequencies in accordance with the second pseudo-random sequence, select the transmission channel, generate a clock signal, peaks of the cross-correlation function for accurate synchronization during demodulation, analyze the quality of the received synchronization sequences, which are used to determine the probability of an error per service bit, which is transmitted in service frames on the transmitting south side, for the information part, service frames are demodulated at the corresponding reception frequencies in accordance with the first pseudorandom sequence, the values of the variables obtained during demodulation are used to form the next packet, and the received information frame is used to analyze the quality of information with the allocation of an error for the information bit that is transmitted in service frames to the transmitting side, and also used to calculate the probability of the correct reception of possible methods for mechanically stable coding, characterized in that at the transmitting end of the radio line, based on the correspondent frequency state list, the transmission frequencies are determined, a digital test sequence is formed, which together with the frequency state list is added as a service slot to the information frame, modulated slots are emitted into the space at the receiving the service slot is allocated to the side, the test sequence and the correspondent frequency status list are shared, the number of incorrectly received bits is determined After the test sequence, they decide to exclude the frequency, form a new list of frequency states, if a specified number of unusable frequencies is exceeded, all frequencies in the status list are determined to be suitable.