RU2013006C1 - Satellite communication system with multiple access - Google Patents

Abstract

FIELD: information relaying systems. SUBSTANCE: satellite communication system includes subscribers' stations and repeater. The latter has unit of receiving aerials, receiver, unit, for detection of collision of packages, package commutator, unit of transmitters and unit of transmitting aerials connected in series. It also includes formers of inhibition transmission signal and of pulse sequence. Input of former is connected to output of unit for detection of collision of packages. Outputs of both formers are tied up together and coupled to inputs of unit of transmitters. Subscriber's station has receiving-transmitting aerial, aerial switch, receiver, selectors which inputs are integrated, package storage, modem, terminal unit, former of packages connected in series as well as unit for control over transmission and transmitter connected in series. Inputs of unit for control over transmission are coupled to outputs of two selectors and transmitter is linked to input of aerial switch. Input of commutator is coupled to output of modem. EFFECT: enhanced operational reliability and stability. 3 dwg

Description

 The invention relates to information relay devices, in particular to active relays.

 The purpose of the invention is to increase the efficiency of packet flow control, as well as increasing survivability of communication.

 In FIG. 1 shows a diagram of the proposed system; in FIG. 2 is a structural electrical diagram of a repeater; in FIG. 3 is a structural electrical diagram of a subscriber station.

 The satellite communication system comprises a repeater 1 and subscriber stations 2, the repeater comprising a block 3 receiving from antennas, a receiver 4, a packet switch 5, a block 6 transmitters, a block 7 transmitting antennas, a block 8 detection of collision packets, shaper 9 signal transmission prohibition (FSZP) , pulse train generator 10, each subscriber station contains a transceiver antenna 11, an antenna switch 12, a receiver 13, a packet selector 14, a transmission prohibition signal selector 15, a pulse sequence selector 16 nosti, block 17 transmission control, drive 18 packets, modem 19, terminal block 20, driver 21 packets, switch 22 and the transmitter 23.

 Satellite communications system operates as follows.

 The terminal block 20 generates a speech or other signal, which the shaper 21 converts into packets. The packet flow through the modem 19, the switch 22 enters the transmitter 23 and then through the antenna switch 12 in the form of a radio signal to the output of the transceiver antenna 11. This signal, emitted by the subscriber station 2, goes to the input of the relay 1. Its input is the antenna receiver unit 3, each of which it receives signals from a certain direction, then to the input of receiver 4, and then the video signal enters block 8.

 If the latter detects a conflict (for example, by the difference in the arrival time of the packet header, or by the syndrome of the sum of the control bits of the packet, or the blank, or by the signal power level at the receiver input, etc.), it generates a signal that prohibits the operation of switch 5 and starts shaper 9. Switch 5 stops the selection of incoming packets and their routing (that is, the subsequent direction of sending) and is installed in the standby mode of the following packets. Shaper 9 generates a signal, which is transmitted through blocks 6 to them 7 to all reachable subscriber stations 2.

 In the subscriber stations 2, the received radio signal through the transceiver antenna 11, the antenna switch 12 enters the receiver 13 and is converted into a video signal, which is selected by the selector 15. The selector 15 generates a signal that closes the switch 22, and the subscriber station 2 interrupts the transmission.

 In repeater 1 (see Fig. 2), shaper 10 is launched from the shaper 10. The pulse sequence through blocks 6 and 7 is transmitted to all reachable subscriber stations 2.

 So (see Fig. 3) the pulse sequence through the transceiver antenna 11, the antenna switch 12 and the receiver 13 enters the selector 16, which selects them, and then goes to block 17. In block 17 they are counted, and after each received pulse the probability of opening switch 22 and, therefore, resume transmission subscriber station 2 increases.

 In a repeated conflict, the relay 1 again generates a transmitter inhibit signal and repeats the pulse sequence again.

Claims (1)

 MULTIPLE ACCESS SATELLITE COMMUNICATION SYSTEM, consisting of subscriber stations and a repeater, wherein the repeater comprises a series of receiving antennas and a receiver, a packet switch, a transmitter and a block of transmitting antennas, each subscriber station contains a series of transceiving antennas, an antenna switch, a receiver packet selector, packet drive, modem and terminal block, as well as a packet driver, the input of which is connected to the information output of the terminal block ka, and the output is connected to the modem information input, the switch and transmitters are connected in series, the output of which is connected to the signal input of the antenna switch, the second modem output is connected to the signal input of the switch, characterized in that series-connected packet collision detection unit, signal conditioner are introduced on the relay the transmission ban (FSZP) and the shaper of the pulse sequence, while the input of the packet collision detection unit is connected to the output of the receiver and the input of the packet switch, the control input "Prohibition of operation" of which is connected to the output of the blocking signal of the packet collision detection unit, the information outputs of the packet switch are connected to the corresponding first information inputs of the transmitter block, the second information input of which is connected to the first outputs of the FSPS and the pulse shaper, output the address signal of the packet switch is connected to the first control inputs of the transmitter block and the block of transmitting antennas, the second control The input inputs of the transmitter block and the block of transmitting antennas are connected to the second outputs of the FSDF, and a pulse sequence driver, at each subscriber station, a transmission inhibit signal selector (CVD), a pulse sequence selector and a transmission control unit are introduced, while the receiver output is connected to the signal inputs of the CVD and pulse sequence selector, the output of the pulse sequence selector is connected to the signal input of the transmission control unit, the control input "Reset" of which is connected n with the first control input of the switch and the output SSZP, the output of the transmission control unit is connected to the second control input of the switch.

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