RU2373647C2 - Method for organisation of adaptive satellite communication - Google Patents

Abstract

FIELD: radio engineering.

SUBSTANCE: invention is related to satellite communication engineering and may be used to arrange high quality communication under conditions of considerable uncertainty of tactical environment. For this purpose signals from working stations to basic station and from basic station to working stations are transmitted after condition of each radio channel and parametres of transmitted information are analysed on basic station, results of analysis are used to carry out multivariate serial adaptation of channel separation type, coding method, type of modulation, speed of transmission, value of bearing frequency, power of transmission and position of power amplifier working point to condition of radio channel and parametres of transmitted information.

EFFECT: increased throughput capacity with specified authenticity of satellite communication system transmission.

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Description

The invention relates to techniques for satellite radio communications and can be used to organize high-quality communications in conditions of significant uncertainty in the tactical situation.

A known method of organizing communication using a multi-parameter adaptive radio communication system for transmitting discrete information [1] in KB and VHF bands with increased reliability, the technical means of which are an information (direct) channel containing coding blocks, buffer storage, modulation, pathogen on the transmitting side of the system and a power amplifier, on the receiving side of the system - blocks of frequency conversion, demodulation and redundancy elimination; and a (reverse) control channel, containing on the receiving side of the system the blocks for generating (depending on the state of the radio channel) control commands, their encoding and transmission, and on the transmitting side of the system, blocks of the receiver, decoder and decoder of control commands. Using auxiliary blocks, the generated control commands provide control of the characteristics of the blocks of the information channel depending on the state of the radio channel and the parameters of the transmitted information, adapting the encoding method, transmission speed, type of modulation, value of the carrier frequency and transmit power. Multiparameter adaptation is carried out sequentially and allows to increase the reliability of information transfer.

The disadvantage of this method is the limited bandwidth due to the lack of taking into account the corrective ability of the error-correcting code set for communication when using the system as part of a satellite radio complex.

A known method of organizing communication using a multi-parameter adaptive digital radio communication system [2] for transmitting discrete information in HF and VHF bands with increased throughput at a given reliability, the main technical means of which coincide with the design [1], but are supplemented by a unit for forming time intervals and counting unit allowing to take into account the corrective ability of the error-correcting code set for communication, which provides increased throughput at a given access transmission of information in the Auvergne.

The disadvantage of this method is the limited bandwidth due to the lack of adaptation of the position of the operating point of the power amplifier depending on the encoding method and the number of active stations [3] when using the system as part of a satellite radio complex.

Closest to the claimed technical solution is a method of organizing satellite communications using low-energy artificial Earth satellites [4], in which workstations generate multi-station access signals with frequency division of channels, amplify them and relay them to the base station, receive these signals at the base station and relay to other workstations at which the received signal is converted into subscriber network signals and transmitted to subscribers through an automatic telephone exchange, the signals from the workstations to the base station are transmitted with frequency division, and from the base station to the workstations - with code division, while the conversion of the signal with frequency division into a signal with code division is carried out at the base station.

The disadvantage of this method is the limited bandwidth due to the inability to adapt the characteristics of the system to the state of the radio channel and the parameters of the transmitted information, in particular, the position of the operating point of the power amplifier depending on the encoding method and the number of active stations [3] when using the system as part of a satellite radio complex.

The objective of the invention is to increase the throughput at a given reliability of the transmission of the satellite communication system by adapting the characteristics of the system to the state of the radio channel and the parameters of the transmitted information, in particular, the position of the operating point of the power amplifier, depending on the encoding method and the number of active stations when using the system as part of a satellite radio complex.

The solution to the problem is achieved by the fact that in a method for organizing adaptive satellite communications using low-energy artificial Earth satellites, in which workstations generate multiple access signals, amplify them and relay them to the base station, receive these signals at the base station and relay to other workstations, on which the received signal is converted into signals of the subscriber network and transmitted through the automatic telephone exchange to subscribers, the signals from workstations to the base station The antenna and from the base station to the workstations are transmitted with a certain type of separation of channels, performing the corresponding signal conversions at the base station, multi-parameter sequential adaptation of the type of channel separation, coding method, transmission speed, modulation type, carrier frequency value, transmit power and position of the operating point is introduced power amplifier to the state of the radio channel and the parameters of the transmitted information.

The technical result consists in providing increased throughput for a given reliability of the transmission of the satellite communication system by adapting the characteristics of the system to the state of the radio channel and the parameters of the transmitted information, in particular, the position of the operating point of the power amplifier, depending on the encoding method and the number of active stations when using the system in satellite radio complex.

A method for organizing adaptive satellite communications using low-energy artificial Earth satellites involves generating multiple access signals at workstations, amplifying them and relaying them through relay satellites to the base station, receiving these signals at the base station and relaying to other workstations at which the received signal is converted in the signals of the subscriber network and through an automatic telephone exchange transmit to subscribers, and the signals from workstations to the base station and from after the analysis of the state of each radio channel (for example, signal level, signal-to-noise ratio) and the parameters of information transmitted through it, according to the results of which a multi-parameter sequential adaptation of the type of channel separation (for example, frequency, time) is carried out at the base station encoding method and type of modulation (for example, FM4, FM2, BCH with FM2), transmission speed, carrier frequency, transmit power and position of the operating point of the power amplifier in critical tory bandwidth for a given reliability of data reception. For example [3] for a power amplifier on a specific LEO, with the number of active workstations 60 and the required error probability per symbol 10 ^-5 for a signal occupying the average (worst in terms of intermodulation distortion) position in the barrel frequency band, the adaptation process will stop at FDM with FM4 at the operating point of the amplifier at the value of P _I.s./ P _I.s. = -9 dB, at which the loss value β in the idealized system is minimal (function 1 on the graph) and the TWT power consumed also turns out to be minimal compared to FM2 (funkts.2) and FM2 with BCH (funkts.3), the minimum values of which correspond to operating points closer to the TWT saturation point (0 dB).

The method can be implemented using standard technical means and on an elemental basis of the corresponding frequency range. Constructions of a number of blocks can be performed on the basis of constructions of blocks of similar functional purpose up to the coincidence or inclusion of designs of prototype elements and analogues. For example, the design of satellite transponders may coincide with the corresponding designs of the prototype, the design of the transmitting and receiving parts of the system may coincide with the designs of the corresponding blocks of analogues. The implementation of the remaining operations is determined by their functional purpose and is known by the prototype and analogues, or is obvious from the prior art. In particular, to regulate the position of the operating point of the transmitter, it is necessary to enter the corresponding additional control input in the block of the transmitting device.

Bibliographic list

1. A.S. No. 1585902 (SU). Multiparameter adaptive radio communication system for transmitting discrete information / A.G. Salikov et al. // BI. 08/15/90.

2. Patent No. 20111300 (RU). Multiparameter adaptive digital radio communication system / A.G. Salikov et al. // BI. 04/15/94.

3. L.V. Kognovitsky, Sh.I. Kasymov, B.S. Melnikov. Bandwidth-optimized frequency division communications systems. - Telecommunications, 1988, No. 5, pp. 13-17, Fig. 6.

3. Patent No. 2121760 (RU). A method of organizing satellite communications using low-energy artificial Earth satellites and a system for its implementation / D.P. Storozhenko et al. // BI. 11/10/98.

Claims (1)

An adaptive satellite communication method using low-energy artificial Earth satellites, in which multi-station access signals are generated at workstations, amplified and relayed to the base station, these signals are received at the base station with an analysis of the state of each radio channel, relay signals to other workstations at which the received signal is converted into signals of the subscriber network and transmitted through the automatic telephone exchange to subscribers, the signals from workstations to the base station Antenna and from the base station to the workstations are transmitted with a certain type of separation of channels, performing the corresponding signal conversion at the base station, characterized in that they analyze the state of each radio channel and the parameters of the information transmitted through it, according to which a multi-parameter serial adaptation of the type of channel separation is carried out, coding method and type of modulation, transmission speed, carrier frequency value, transmission power and position of the operating point of the power amplifier ty according to the criterion of bandwidth for a given reliability of receiving information.

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