RU2273954C1 - Method for transferring discontinuous information in radio line with pseudo-random adjustment of working frequency - Google Patents

Abstract

FIELD: radio communications with pseudo-random frequency adjustment.

SUBSTANCE: method includes controlling interference situation on transmitting and receiving ends of radio line by measuring and comparing to each other of interference levels at controlled frequencies and selecting frequencies from them with minimal level of interference for transmitters positioned on both ends of radio line.

EFFECT: increased trustworthiness of communication.

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Description

The invention relates to radio communications, in particular to the transmission of discrete information by signals with pseudo-random tuning of the operating frequency (PFRCH), and may find application in the transmission of discrete information in duplex radio links with PPRCh of any length, operating in the common frequency band with radio devices of various affiliation and with different principles work in a difficult jamming environment.

A known method of transmitting discrete information by signals with frequency hopping [1, 2, 3]. The reasons that impede the achievement of the technical result proposed below include the fact that this method has a strict program for tuning the operating frequencies, which does not allow adapting to a changing interference environment, that is, controlling the choice of the carrier frequency of the transmitter based on the analysis of the interference situation during communication.

A known method of transmitting discrete information by signals with frequency hopping [4]. The reasons that impede the achievement of the technical result proposed below when using this method include the impossibility of its use in long-distance radio lines, which are characterized by different jamming conditions at both ends of the radio line. In this case, it is possible to select the carrier frequency of the transmitter, optimal for one end of the radio line, but affected by interference at the other end of the radio line.

The closest in essence to the claimed method of transmitting discrete information by signals with frequency hopping is a known method [5].

The prototype method consists in the fact that information packets are formed from the information signal, the transmitter carrier frequency is tuned to the frequency corresponding to the current cycle code of one of two or more pseudorandom sequences, which is operational for this cycle, the transmitter carrier frequency is generated by the generated packet information and emit the received radio signal to the receiving end of the radio line. At the receiving end of the radio line, the radio signal transmitted from the transmitting end is received simultaneously at all frequencies corresponding to the codes of the current clock of all pseudorandom sequences, converted to an intermediate frequency, amplified, demodulated, decoded the received information packet at the address recorded in the packet and fed an information signal to the receiver information. Simultaneously with the reception of a radio signal at the receiving end, the control receivers monitor the interference situation at frequencies corresponding to the codes of the subsequent clock of all pseudorandom sequences; according to the results of the control, they generate control information for controlling the choice of the carrier frequency of the transmitter located at the transmitting end of the radio line to the required frequency corresponding to the code of the subsequent clock one of the pseudo-random sequences, information packets are formed, to which control is added transmitting information, the carrier frequency of the transmitter located at the receiving end of the radio line is tuned to the frequency corresponding to the current clock code of one of two or more pseudorandom sequences, the carrier frequency of the transmitter located at the receiving end of the radio line is modulated by the information packet and emitting the received radio signal to the transmitting end radio lines. At the transmitting end, simultaneously with the radiation of the radio signal, the radio signal transmitted from the receiving end is received simultaneously at all frequencies corresponding to the codes of the current clock of all pseudorandom sequences, converted to an intermediate frequency, amplified, demodulated, decoded the received information packet at the "address" recorded in the packet, and control information is extracted to control the choice of the carrier frequency of the transmitter located on the transmitting end of the radio line and feed it to the transmitter, for its tuning to the required the emitted frequency corresponding to the code of the subsequent clock of one of the pseudorandom sequences.

The reasons that impede the achievement of the technical result proposed below when using the prototype method include the impossibility of generating control information for controlling the choice of the carrier frequency of the transmitter located at the transmitting end of the radio line in the event of interference at all monitored frequencies corresponding to the codes of the subsequent clock of all pseudorandom sequences, as there is no monitored frequency at which there is no interference. In this case, the transmitter located on the transmitting end of the radio line at the next clock cycle will be tuned to the frequency corresponding to the code of the working pseudo-random sequence, struck by interference at the receiving end of the radio line, which may lead to a deterioration in the quality of communication below the permissible level and loss of reliability. In addition, the prototype method does not realize the ability to control the selection of the carrier frequency of the transmitter located at the receiving end of the radio line according to the results of monitoring the jamming situation at the transmitting end of the radio line. This can lead to the fact that the transmitter located at the receiving end of the radio line at the next clock cycle is tuned to the frequency corresponding to the code of the working pseudorandom sequence, struck by interference at the transmitting end of the radio line, which can lead to erroneous reception of control information on controlling the choice of the carrier frequency of the transmitter, located at the transmitting end of the radio link.

One of the ways to increase the efficiency of the operation of radio frequency interference frequency hopping radios when transmitting discrete information in a difficult jamming environment and the limited frequency resource is a method for transmitting discrete information in a radio frequency hopping radio frequency dynamic adaptation, which is performed by selecting one frequency from several monitored frequencies corresponding to codes of the subsequent measure of several pseudo-random sequences [5]. The frequency is selected according to the criterion of the absence of interference on it. However, in the presence of interference at all frequencies, it is impossible to select a frequency according to this criterion, and the transmitter located at the transmitting end of the radio line is tuned to the frequency affected by the interference, which leads to a decrease in reliability. More effective from the point of view of increasing reliability is the selection of one frequency from several monitored frequencies corresponding to the codes of the subsequent measure of several pseudorandom sequences according to the criterion of the minimum level of interference. It is known that the interference levels at the input of the receiver depend on the frequency, power of the interference source, propagation conditions and removal of the interference source from the receiver [6]. Since these parameters are different for each source, the interference levels at the input of the receiver will be different. Application of the proposed criterion will allow you to choose the frequency from several monitored that has a minimum level of interference, which will allow you to get the maximum signal / noise ratio of all possible and thereby increase the reliability of communication. In addition, to increase the reliability, it is advisable to control the selection of the carrier frequency of the transmitter located at the receiving end of the radio line, according to the results of monitoring the jamming situation at the transmitting end of the radio line.

The aim of the invention is to develop a method for transmitting discrete information in a radio frequency hopping radio frequency transmission system, which provides increased reliability of received discrete information in duplex radio lines of various lengths in difficult interference conditions, when a large number of operating frequencies are subject to interference, some of which have a relatively low level, at which the ratio signal / interference at these frequencies is higher than the minimum allowed due to control of the choice of carrier frequencies of transmitters located and transmitting and receiving ends of a radio interference environment monitoring results respectively receiving and transmitting ends of a radio link by measuring and comparing the relative interference levels at controlled frequencies and selecting the frequency with minimum interference to transmitters located respectively on the transmitting and receiving ends of the link.

The specified technical result is achieved by the fact that in the known method of transmitting discrete information in a radio frequency hopper radio frequency transmission circuit, including forming information packets at the transmitting end of the radio line by adding to the information blocks from the information source, a “correspondent” address, tuning in synchronously with the frequencies of the receivers at the receiving end the radio carrier frequency lines of the transmitter located at the transmitting end of the radio line at a frequency corresponding to the current clock code of one of two or more pseudo random investigations, which for this cycle is working, modulation of the carrier frequency of the transmitter located at the transmitting end of the radio line with the generated information packet and subsequent emission of the received radio signal to the receiving end of the radio line, simultaneously with the formation of information packets, tuning the receivers to frequencies corresponding to the codes of the current cycle of all pseudorandom sequences, corresponding to the pseudo-random sequences of the transmitter located at the receiving end of the radio link, by transmitting from the receiving end of the radio signal simultaneously at all frequencies corresponding to the codes of the current clock of all pseudorandom sequences, converting the received radio signal to an intermediate frequency, amplifying, demodulating, decoding the received packet of information at the “address” recorded in the packet, extracting control information for controlling the choice of carrier frequency a transmitter located at the transmitting end of the radio link, and supplying it to a transmitter located at the transmitting end of the radio link for rebuilding it on the subsequent clock to the selected carrier frequency by connecting the pseudo-random sequence whose code corresponds to the selected carrier frequency, at the receiving end of the radio line, tuners to the frequencies corresponding to the codes of the current clock of all pseudo-random sequences corresponding to the pseudo-random sequences of the transmitter located on the transmitting end of the radio transmitted from the transmitting end of the radio signal simultaneously at all frequencies corresponding to the codes of the current the beat of all pseudorandom sequences, converting the received radio signal to an intermediate frequency, amplifying, demodulating, decoding the received information packet at the “address” recorded in the packet, extracting the information block from the received information packet and supplying the information block to the information receiver, simultaneously with the reception of information transmitted from the transmitting end formation of information packets by adding to the blocks information coming from the source of information of the “address” of the correspondent, and controlling information instructions for controlling the selection of the carrier frequency of the transmitter located at the transmitting end of the radio line, tuning synchronously with the frequencies of the receivers at the transmitting end of the radio line of the carrier frequency of the transmitter located at the receiving end of the radio line, to the frequency corresponding to the code of the current clock of one of two or more pseudorandom sequences, which This cycle is operational, modulation of the carrier frequency of the transmitter located at the receiving end of the radio line, formed by the information packet and the subsequent zluchenie received RF signal at the transmitting end of the link.

At the receiving end of the radio line, control information for controlling the selection of the carrier frequency of the transmitter located at the receiving end of the radio line is extracted from the information packet received from the transmitting end, and it is fed to the transmitter located at the receiving end of the radio line for subsequent tuning to the selected carrier frequency by connecting the pseudo-random sequence, the code of which corresponds to the selected carrier frequency, while rebuilding the signal transmitted from the transmitting end control receivers for frequencies corresponding to the codes of the subsequent clock of all pseudorandom sequences corresponding to the pseudorandom sequences of the transmitter located at the transmitting end of the radio link are measured, the noise levels at the controlled frequencies corresponding to the codes of the subsequent clock of all pseudorandom sequences are measured and compared with each other, as a result of comparison, choose from them frequency with a minimum level of interference and form control information for controlling the choice of carrier h simplicity transmitter located at the transmitting end of the radio link for its adjustment on the subsequent cycle to the selected carrier frequency with minimum interference by connecting the radio link at the transmitting end of the pseudo-random sequence code which corresponds to the selected carrier frequency.

At the transmitting end of the radio line, an information block is extracted from the information packet received from the receiving end and transmitted to the information receiver; simultaneously with the reception of the transmitted radio signal from the receiving end, the control receivers are tuned to frequencies corresponding to the codes of the subsequent clock of all pseudorandom sequences similar to the pseudorandom sequences of the transmitter located on the receiving end of the radio link, measure and compare with each other the interference levels at controlled frequencies, corresponding codes of the subsequent clock of all pseudo-random sequences, as a result of the comparison, a frequency with a minimum level of interference is selected from them and control information is generated to control the choice of the carrier frequency of the transmitter located at the receiving end of the radio line to tune it at the next clock to the selected carrier frequency with a minimum level of interference by connecting at the receiving end of the radio link of that pseudo-random sequence, the code of which corresponds to the selected carrier frequency, add the control information to information blocks when forming information packets.

Due to the new set of essential features, due to the introduction of new actions, it becomes possible to increase the reliability of the received discrete information in a duplex radio link with a long-pass frequency hopper due to controlling the choice of carrier frequencies of transmitters located at the transmitting and receiving ends of the radio line according to the results of monitoring the interference situation at the receiving and transmitting ends, respectively radio lines by measuring and comparing noise levels at controlled frequencies and choosing among them often t with a minimum level of interference for transmitters located respectively on the transmitting and receiving ends of the radio link.

The analysis of the prior art made it possible to establish that analogues that are characterized by a combination of features that are identical to all the features of the claimed method are absent, which indicates the compliance of the claimed method with the condition of patentability "novelty". Search results for known solutions in this and related fields of technology in order to identify features that match the distinctive features of the prototype of the claimed method showed that they do not follow explicitly from the prior art. The prior art also did not reveal the popularity of the influence of the transformations provided for by the essential features of the claimed invention to achieve the specified technical result. Therefore, the claimed invention meets the condition of patentability "inventive step".

The claimed method is illustrated by the structural diagram of a transceiver device.

The implementation of the claimed method is as follows. For the functioning of the radio link in the frequency hopping mode when transmitting discrete information according to [7], the transceiver at No. 1 is located at the transmitting end, and the transceiver at No. 2 at the receiving end.

The transmitting and receiving devices at the receiving and transmitting ends of the radio link are the same and contain a block of M pseudorandom sequence generators (GPS) 1, with half of them - K 'participating in the formation of the frequencies of the receivers and control receivers of the device under No. 1 and the carrier frequency of the device transmitter under No. 2, and the second half of them - K '' participate in the formation of the carrier frequency of the transmitter of the device under No. 1 and the frequencies of the receivers and control receivers of the device under No. 2; switch 2; transmitter 3; device for the formation and decoding of packets (UVDP) 4; K receivers 5.1-5.K; a circuit for comparing interference levels 6; To control receivers 7.1-7.K.

Consider the operation of devices using the example of a device under No. 1, a device under No. 2 works similarly.

The message from the source of information arrives at the UVDP 4 devices under No. 1 in the form of information blocks. In UVDP 4, information packets are formed by adding to the information blocks the "address" of the correspondent and control information for controlling the choice of the carrier frequency of the transmitter of the device under No. 2. The information package thus formed with UVDP 4 is supplied to the transmitter 3.

Frequency codes of the current (n) clock cycles of all pseudorandom sequences (PSPs) specified by K '' PSP generators of GPS unit 1 are supplied to switch 2, which connects the frequency code of the current clock of one of the PSPs to transmitter 3. Connecting the necessary memory bandwidth, which is for the current the clock cycle is working, it takes place according to the control information for controlling the choice of the carrier frequency of the transmitter 3, formed in the device under No. 2, which is fed to the switch 2 from the UVDP 4. At the same time, the remaining memory bandwidths are considered reserve s. In the transmitter 3, the carrier frequency is formed corresponding to the code of the current clock cycle of the operating memory bandwidth, synchronously with the frequency formation in the device receivers under No. 2, and the carrier frequency of the transmitter is modulated by the generated information packet. The received radio signal is emitted into the space on the device under No. 2.

The radio signal from the device under No. 2 is received with the help of receivers 5.1-5.7С simultaneously at all frequencies corresponding to the codes of the current clock of all the bandwidths specified by the K 'generators of the bandwidth of the GPS unit 1.

Frequency codes of the current (n) clock cycles of all the bandwidths specified by the K 'generators of the bandwidth of the GPS unit 1 are supplied to the respective receivers 5.1-5.K, where the formation of the receiving frequencies occurs, simultaneously with the formation of the carrier frequency in the transmitter 3 of the device under No. 2.

Reception at all frequencies is carried out in order to exclude information loss in case of erroneous reception of control information for controlling the choice of the carrier frequency of the transmitter from the device under No. 2.

From the antenna device, the received signal is fed to 5.1-5.K receivers, where it is converted to an intermediate frequency, amplified and demodulated.

The demodulated signals from the outputs of all receivers are fed to UVDP 4. In UVDP 4 of the demodulated signals decode the received information packet at the correspondent "address" recorded in the packet, extract an information block and control information for controlling the selection of the carrier frequency of the transmitter of the device at No. 1 from the received information packet . A dedicated block of information from UVDP 4 is fed to the information receiver, and dedicated control information to control the selection of the carrier frequency of the transmitter of the device under No. 1 from UVDP 4 is sent to switch 2.

To control the choice of the carrier frequency of the transmitter 3 of the device under No. 2, in the device under No. 1, the jamming situation is monitored at frequencies corresponding to the codes of the subsequent clock cycle of all SRPs specified by K 'generators of the SRP unit of GPSP 1, to which receivers 5.1-5 will be tuned at a subsequent cycle .K device number 1 by measuring and comparing the noise levels.

Frequency codes of the subsequent (n + x) clocks of all the bandwidths specified by the K 'bandwidth generators of the GPS unit 1 are supplied to the corresponding monitoring receivers 7.1-7. K, where the formation of monitored reception frequencies occurs simultaneously with the formation of the receiving frequencies of the device at No. 1 and the carrier frequency device transmitter under No. 2.

From the antenna device to the monitoring receivers 7.1-7.K, either noise is received, or, in the case of interference at a controlled frequency, a mixture of noise and noise. Control receivers 7.1-7. K measure the interference levels at the controlled frequencies and submit the measurement results to the interference level comparison circuit 6.

The circuit for comparing interference levels 6 compares interference levels with each other, selects the minimum one, determines the frequency corresponding to it, and generates control information for controlling the selection of the carrier frequency of the transmitter 3 of device No. 2, which contains the number of the SRP whose code corresponds to the frequency with a minimum interference level . The generated control information is received at UVDP 4.

Thus, the claimed method provides the transmission of discrete information in a duplex radio frequency hopping frequency transmission using frequency diversity with auto-selection of the carrier frequencies of the transmitters located on the transmitting and receiving ends of the radio line according to the results of monitoring the jamming situation at the receiving and transmitting ends of the radio line, and provides increased reliability received discrete information in a complex interference environment.

Information sources

1. Ribchester E. The Jaguar-V Frequency - hopping radio. Electronics and Power, 1981, 27, September.

2. IEEE Trans., 1988, COM-289.

3. Gorshkov VV, Kuksin OV, Rubtsov S.A., Sukhov A.V. Military communication systems with pseudo-random tuning of the operating frequency // Foreign Radio Electronics, 1986 No. 3.

4. Bulychev O.A., Kalinin V.M., Popov V.I. A method of transmitting information in a radio line with pseudo-random tuning of the operating frequencies and a device that implements it. Pat. RF №2099886, MKI 6 Н 04 L 5/02. Application No. 94024375/09 from 06/29/94, publ. 12/20/97. Bull. Number 35.

5. Derkach E.N., Popov V.I., Lazorenko B.C., Sivokonev G.N. A method of transmitting discrete information in a radio line with pseudo-random tuning of the operating frequency and a device that implements it. Pat. RF №2178237, MKI 7 Н 04 В 1/713. Application No. 99123808/09 from 10.11.99, publ. 01/10/02. Bull. No. 1.

6. Serkov V.P. Radio wave propagation and antenna devices. - YOU, 1981.

7. Computer networks. Principles, technologies, protocols / V.G. Olifer, N.A. Olifer. - St. Petersburg: Publishing House "Peter", 2000.

Claims (1)

A method of transmitting discrete information in a duplex radio line of various lengths with a pseudo-random tuning of the operating frequency, including the formation of information packets at the transmitting end of the radio line by adding to the information blocks from the information source the "address" of the correspondent, tuning synchronously with the frequencies of the receivers at the receiving end of the carrier frequency radio line a transmitter located at the transmitting end of the radio link to a frequency corresponding to the code of the current clock of one of two or more pseudos of random sequences, which for this cycle is operational, modulation of the carrier frequency of the transmitter located on the transmitting end of the radio line with an information packet and subsequent emission of the received radio signal to the receiving end of the radio line, simultaneously with the formation of information packets, tuning the receivers to frequencies that correspond to the codes of the current cycle of all pseudorandom sequences corresponding to the pseudo-random sequences of the transmitter located at the receiving end p dioline, receiving the radio signal transmitted from the receiving end of the radio signal simultaneously at all frequencies corresponding to the codes of the current clock of all pseudorandom sequences, converting the received radio signal to an intermediate frequency, amplifying, demodulating, decoding the received information packet at the “address” recorded in the packet, extracting control information for selecting control the carrier frequency of the transmitter located on the transmitting end of the radio line, and feeding it to the transmitter located on the transmitting end of the radio line, for tuning it at a subsequent cycle to the selected carrier frequency by connecting the pseudo-random sequence corresponding to the selected carrier frequency at the receiving end of the radio line, tuning the receivers to frequencies corresponding to the codes of the current cycle of all pseudo-random sequences corresponding to pseudo-random sequences of the transmitter located on the transmitting end of the radio line reception of a radio signal transmitted from the transmitting end simultaneously at all frequencies corresponding to I will give the current beat of all pseudorandom sequences, converting the received radio signal to an intermediate frequency, amplifying, demodulating, decoding the received information packet at the “address” recorded in the packet, extracting the information block from the received information packet and supplying the information block to the information receiver, simultaneously with the reception of information transmitted from of the transmitting end of the radio signal, the formation of information packets by adding to the blocks of information received from the information source, the "address" of the correspondent and information on controlling the choice of the carrier frequency of the transmitter located on the transmitting end of the radio line, tuning synchronously with the frequencies of the receivers on the transmitting end of the radio carrier frequency of the transmitter located on the receiving end of the radio line to the frequency corresponding to the current cycle code of one of two or more pseudorandom sequences, which for This cycle is operational, modulation of the carrier frequency of the transmitter located at the receiving end of the radio line by the generated information packet and the next radiation of the received radio signal to the transmitting end of the radio line, characterized in that at the receiving end of the radio line, control information for controlling the selection of the carrier frequency of the transmitter located at the receiving end of the radio line is extracted from the receiving end of the information packet and fed to the transmitter located at the receiving end radio lines for its subsequent tuning to the selected carrier frequency by connecting that pseudo-random sequence, the code of which corresponds to the selected the carrier frequency, at the same time as receiving the radio signal transmitted from the transmitting end, the control receivers are tuned to the frequencies corresponding to the codes of the subsequent clock of all pseudorandom sequences corresponding to the pseudorandom sequences of the transmitter located at the transmitting end of the radio line, the noise levels at the monitored frequencies corresponding to the codes are measured and compared the subsequent beat of all pseudo-random sequences; as a result of the comparison, that with a minimum level of interference and generate control information for controlling the selection of the carrier frequency of the transmitter located at the transmitting end of the radio line, for its subsequent tuning to the selected carrier frequency with a minimum level of interference by connecting the pseudo-random sequence at the transmitting end of the radio line, the code of which corresponds to the selected carrier frequency, at the transmitting end of the radio link, an information block is extracted from the information packet received from the receiving end and sent to the receiver At the same time as receiving the information transmitted from the receiving end of the radio signal, the control receivers are tuned to the frequencies corresponding to the codes of the subsequent clock of all pseudorandom sequences similar to the pseudorandom sequences of the transmitter located at the receiving end of the radio line, the noise levels at the monitored frequencies corresponding to the codes of the subsequent clock are measured and compared all pseudo-random sequences, as a result of comparison, a frequency with a minimum the interference level and generate control information for controlling the choice of the carrier frequency of the transmitter located at the receiving end of the radio line, for its subsequent tuning to the selected carrier frequency with a minimum interference level by connecting the pseudo-random sequence at the receiving end of the radio line to the code of which the selected carrier frequency corresponds, add the generated control information to the information blocks when forming information packets.