SU1083382A1 - Device for transmitting and receiving information - Google Patents

Abstract

TRANSMISSION AND RECEIVING DEVICE INFORMATION, containing serially connected message input block, encoder and transmitter, blocking input of which is connected to output of AND element, serially connected receiver, decoder and channel control unit, the second input of which is connected to B1 of the terminal and third input - with the output of the chronizer,.: a output of the channel control unit is connected to the input of the soil And, characterized in that, in order to increase the amount of information transmitted, the block has been entered into it: prioritization This is the frequency code generator and, the second output of the message input unit is connected to the first input of the priority shaping unit, the control input of which is connected to the second output of the chronizer, and the output of the priority generation unit to the second input of the And element, the receiver adjustment input is connected to the output of the frequency code generator, second a swarm whose output is connected to the transmitter adjustment input, and a control input of the frequency code generator coy (L dinen with the third output of the chroniser,: the output of the AND element is connected to the input of the ka texting and vho§ receiver locks do. h: o ero so

Description

The invention relates to a radio communication technique and can be used for transmitting short messages, for example, control commands between a plurality of geographically distributed stations. A known radio network provides for the transmission of messages between a fixed station and several mobile stations, each of which contains a transmitter, a receiver and a control signal shaper, and at a fixed station a device for comparing the phases of local and received control oscillations 1 j. The disadvantage of this device is that it is not possible for independent peripheral stations to communicate with the central station, as well as for the complexity of implementation. Closest to the proposed device is the transmission and reception of information, containing successively the message input block, the code ep. and the transmitter, the blocking input of which is connected to the output of the And element, the serially connected receiving decoder and the channel control unit, the second input of which is connected to the output of the receiver, and the third input to the output of the clock, the output of the channel control unit 2, The disadvantage of this device is the efficiency of using the capacity of radio channels. The purpose of the invention is to increase the amount of information transmitted. To achieve this goal in the device transmitting and receiving information; containing a serially connected message input block, an encoder and a transmitter, whose blocking input is connected to the output of an AND element, a serially connected receiver, a decoder and a channel occupation control unit, the second input of which is connected to the receiver's output, and the third input - from the clock output, and the output of the channel control unit is connected to the input of the AND element, a priority generation unit and a frequency code generator are entered, the second output of the message input unit is connected to the first input of the formation unit 22 priority a whose control input is connected. the second output; the clock commander, and the output of the Priority forming unit - to the second input of the element I, the receiver adjustment input is connected to the output of the frequency code generator, the second output of which is connected to the transmitter adjustment input, and the control input of the frequency code generator, whereby the output of the AND element is connected to the input of the input block of messages and the input of the blocking receiver. Figure 1 shows the structural electrical circuit of the communication network} in Figure 2 are time diagrams explaining the principle of operation of the proposed device. The communication network contains n geographically distributed transmission and reception devices 1 (radio stations) consisting of a chroniser 2, a shaper 3 of the frequency code, a receiver 4, a decoder 5, a channel occupancy control unit 6, element 7, a priority shaping unit 8, a unit 9 input messages, encoder 10, transmitter 11, 12 input buses and 13 output messages. The device works as follows. The clock 2 of each radio station generates a periodic sequence of pulses of the time cycle T, (Fig. 2a) arriving at the frequency code generator 3, a certain number (for example, 3) of the timeframe atf, signal transmission pulses (Fig. 26) arriving at the formation unit 8 priority, and pulses of time intervals l, analysis of channel occupancy (Fig. 2b), arriving at block 6 of channel occupancy control. When the TC signals arrive, the shaper 3 of the frequency code signals the transmit and receive frequency codes and outputs them to the inputs of receiver 4 and transmitter 11. After setting up receiver 4, the pulse sequence from its output goes to deco-der-5 and block 6. Decoder 5 performs code-conversion the sequence received and selecting the message. The channel occupancy control unit 6 at time intervals 4tq conducts statistical control of the structure of the pulse sequence received from receiver 4, for example, by the parameters of the pulse width distribution and the structure of the transformed information received from decoder 5. When the random radio interference structure is detected 6 decides on. the absence of a radio channel, and in the case of detecting the structure of a signal — it is decided about its occupation by other stations .., Corresponding signals are output to the element of element 7. The message (for example, the control command) to be transmitted contains the address indication of the destination station , the priority sign and the information part (control command) and is entered using the message input block 9. In terminal stations of the network, pairing or terminal devices can be used as a message input unit. In the node station, which is the main station, messages from network subscribers arrive at block 9 via input buses, 2. Block 9 makes a sign of priority out of the message and organizes service queues in accordance with the priority. The priority sign code from the output of block 9 is fed to the input of the priority shaping block 8, which introduces a time delay of signal transmission by shifting the front of t pulses arriving at it from chronizer 2 in a given time cycle Tc, by a certain amount 4. the priority corresponds to a smaller delay value 4 (FIG. 26), the next — and so on. The magnitude of the delay LT can be set by a variable, for example, according to a random law. The introduction of signal transmission delays allows to transmit messages with different priorities in any 4t time interval in the absence of higher priority messages, and also to eliminate the possibility of overlapping messages from several stations (along with channel occupancy control). The signal from the output of the priority shaping unit 8 is fed to the element And 7, which, when the signals from the block 8 and the signal of the channel is empty from the block 6, coincides with the signal to the receiver 4, the communication input unit 9 824 and the transmitter 11. This signal locks receiver A's input, the transmitter 11 is turned on (signal radiation), and the input of messages from block 9 through the encoder 10 is enabled. , noise immunity coding by code, to transmitter J1, and the signal is radiated at the carrier frequency corresponding to the given time cycle Tz. If the message was not transmitted in the first interval L t due to channel occupancy (there is no signal on the And 7 element), the transmission is clearing the channel in the next 4t interval. In Fig. 2g, the signal at the output of element 7 is shown as an example when the second priority message is transmitted at the first 4tp interval, and the second 4tf interval, Hai, is the first priority message. At the end of the message transmission by the signal from the output of the And 7 element, the transmitter 11 is turned off and the input of receiver 4 is unblocked. The message transmitted by one of the stations is received by all stations of the radio network, because the chronizers 2 and shapers 3 of all stations provide synchronous tuning of transmitters 11 and receivers 4. Sequence characters from the output of the receiver 4 is fed to the input of the decoder 5, which performs the inverse code conversion, as well as the selection of the address feature, the priority feature and the information section message. At the destination station, the address of which coincides with the address indication of the message, the decoded message from the output of the decoder 5 is transmitted to the external device on the buses 13 for the registrar. Thus, the proposed device for transmitting and receiving information allows the transmission of short messages in automatic mode between both geographically distributed network (main) stations and multiple terminal (slave) stations, as well as between multiple peer stations. . The technical and economic efficiency of the proposed device consists in providing an automatic mode of message transfer and increasing the efficiency of using radio channels by increasing the amount of information transmitted.

FIG. 2

Claims (1)

INFORMATION TRANSMISSION AND RECEIVING DEVICE, containing sequentially connected message input unit, encoder transmitter, blocking input of which is connected to the output of AND element, series-connected receiver, decoder and channel busy control unit, the second input of which is connected to the output of the receiver, and the third the input is with the output of the chronizer, and the output of the channel’s busy control unit is connected to the input of the element 'And, i different from the fact that, in order to increase the amount of information transmitted, a block is introduced into it. priority generation and frequency code generator, the second output of the message input unit is connected to the first input of the priority formation unit, the control input of which is connected to the second output of the chronizer, and the output of the priority formation unit ^ '.:. to the second input of the And element, the receiver adjustment input is connected with the output of the frequency code generator, the second output of which is connected to the transmitter control input, and the control input of the frequency code generator is connected to the third output of the chronizer, and the output of the And element chen to the input of the message input unit and the input of the receiver lock.