SU470825A1 - Device for modeling a telemetry system - Google Patents

Description

one

The invention relates to the field of modeling data transmission systems and can be used in the development of specialized computing devices designed to solve problems related to the study of noise immunity and efficiency of adaptive radio telemetry Systems (RTS) with the address principle of transmitting telemetry results.

A device for simulating a telemetry system is known, comprising an initial message sensor, the first output of which is connected to one of the inputs of the error calculation unit, and the second output is connected to one of the inputs of the coding unit through a message compression unit, an adder with an error flow modeling unit connected, a decoding unit , one of the inputs of which is connected to the output of the adder, and the first output is connected to the message recovery unit, the output of which is connected to another input of the error calculation unit, the second output of the message compression block is connected to the second inputs of the coding block and the decoding block via the control block and the address generation block; the second output of the decoding block is connected via a random sequence sensor and a group message simulation block

the second input of the message recovery block.

A disadvantage of the known device is as follows. Real adaptive PTCs incorporate buffer memories (LPD) designed to match the flow of significant samples from the output of the compression unit at random times with a constant bandwidth of the communication channel. The use of BDU in real adaptive RTS leads to the need to study the processes characteristic of such systems, in particular, the efficiency of using the communication channel, the adaptive properties of the RTS in relation to the change in the flux density of significant samples and the effect of the loss of information due to the total overflow data transmission error

etc.

The known device does not allow these tasks.

The proposed device is characterized in that it contains a commanding unit, one

the input of which is connected to the output of the coding unit, and the control unit, the output of which is connected through the control unit to the second inputs of the message compression unit and the storage unit, one output of which is connected to the adder, and the second output to the input of the control unit.

This made it possible to expand the class of problems to be solved and to further investigate a number of processes in adaptive RTS, namely:

- efficient use of communication bandwidth;

-adaptive properties of the RTS in relation to elucidation of the flux density of significant samples;

- degree of filling BZU;

- the effect of the loss of part of the information due to the overflow of the RAM on the total error of data transmission.

The functional diagram of the proposed device is shown in the drawing, where indicated: 1 - sensor of the original messages; 2 — error flow modeling block; 3 — error calculation block; 4 — block of message readings; 5 - coding block; 6 - adder; 7 is a decoding unit; 8 - message recovery block; 9 — control unit; 10-block forming addresses; 11 - random sequence sensor; A 12-block simulation group; 13 - memorized block; 14 - control unit.

The device works as follows.

Source message sensor 1 generates continuous message implementations in the form of discrete random sequences with the required characteristics. The message compression unit 4, in accordance with the current characteristics of the input implementations, compresses them (eliminates redundant samples) and generates significant samples, which, together with the selected address for the given source of messages, from the address block 10 enter the coding block 5; In addition, the addresses of the other channels of the measuring system are received cyclically, according to a program or randomly according to a certain law, to the input of the coding unit, in addition, from the unit 10 of generating addresses by commands of the control unit 9. The frequency of formation and the sequence of the transfer of addresses correspond to the stream of significant samples of the indicated measurement channels.

After the coding block 5, the code combinations of the substantial samples of the channel under study and the addresses of the other channels are sent to the storage unit 13. From the output of the storage block, the code combinations are uniformly read for subsequent transmission over the communication channel, the error stream in which is modeled using the error mode / shrewing block 2 and adder 6. The control unit 14 controls the degree of filling of the storage unit 13 and in case of a danger of overflow (for example, when the memory is 80% full), it generates a signal a control unit 9, where a command is generated that acts either on a message compression unit 4, which allows to reduce the flow of significant samples,

or to a storage unit, increasing the speed of reading significant samples from the storage unit.

The impact on the message compression unit 4 in order to reduce the stream of significant samples may be equivalent to an increase in the error in compressing the data considered by the error calculation unit 3.

Increasing the reading speed of the significant samples from the storage unit 13 is equivalent to simulating a jump-like increase in the capacity of the communication channel and corresponds to the simulation of the process of either connecting backup communication channels or changing the characteristics of this channel.

In the control unit 9, the arrival and reading speeds of code combinations from the storage unit are fixed, and thus the efficiency of using the channel capacity is simulated.

In the decoding unit 7, the address portions of the transmitted and received code combinations are compared, and if they match, the received significant samples are used by the message recovery unit 8 to recover the continuous message. Code combinations with distorted address parts and lost due to an overflow of the storage unit are discarded by the decoding unit 7, which is equivalent to the loss of significant samples.

When only addresses are received by the decoder 7, the latter compares the received addresses with the addresses of the investigated message source and, if they coincide, the sensor 11 random sequences together with the group message modeling unit 12 generates readings that are false for the measured measuring channel The received signals of the sensor 1 of the original messages in a statistical sense are equivalent to messages that are not edited across all measuring channels of a real multi-channel system. s.

Thus, the proposed device, by slightly complicating it, along with solving the problems of studying the noise immunity of adaptive RTSs with the address principle of transmitting compressed messages, conducts studies of the efficiency of using a communication channel capacity and the adaptive properties of RTS with respect to changes in the flux density of significant samples and the effect of losses parts of information due to overflow of BZU on the total error of data transmission.

Subject invention

A device for simulating a telemetry system containing a source message sensor, the first output of which is connected to one of the inputs of the error calculation unit, and the second output through the message exit unit is connected to one of the inputs of the coding unit, an adder with the error flow modeling unit connected, one decoding unit from the inputs of which is connected to the output of the adder, and the first output is connected to the message recovery unit, the output of which is connected to another input of the error calculation unit, another the output of the message compression unit through the control unit and the address generation unit are connected to the second inputs of the coding unit and the decoding unit; the second output of the decoding unit is connected via

Random sequence sensor p a group message modeling unit to the second input of the message recovery unit, characterized in that, in order to increase the modeling accuracy, it contains a storage unit, one input of which is connected to the output of the coding unit, and a control unit, the output of which is connected through the control unit with another input of the block of compression of messages and memorizing of the block, one output of which is connected to the adder, and the other output to the input of the control unit.

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