SU1325504A1 - Device for modelling data collection systems - Google Patents

Abstract

The invention relates to digital computing and is intended to simulate the operation of data acquisition systems. The purpose of the invention is to enhance the functionality of T, by reproducing the command-and-autonomous mode of controlling the operation of data collection points. The device contains a display unit 1, channels 2 simulate the operation of a data collection point, each of which contains a decoder 3, a generator 4 of a random stream of control command pulses, a block 5 of modeling the control path errors, a generator 6 of a random stream of interference pulses, a HE element 7, a block of 8 elements And, the element OR 9, the sensor 10 random numbers, the switch 11, the counter 12 the number of control commands, the group of counters I3 the number of commands to be transmitted, the counter 14 the number of commands transmitted, the counter 15 the number of commands received. 2 Il. § L

Description

The invention relates to digital computing and communication technology and can be used to simulate data collection systems.

The purpose of the invention is to expand the functionality of the device by reproducing the command and autonomous mode of controlling the operation of data collection points.

Fig, 1 shows a block diagram of the device; in fig. 2 is a block diagram of a control path error modeling block.

The device contains an indication unit 1 and channels 2 of modeling the operation of a data collection point, each of which contains a decoder 3, a generator 4 of a random stream of control command pulses, a block 5 of modeling a control path error, a generator 6 of a random stream of interference pulses, a HE element 7, a block of 8 elements And, the element OR 9, the sensor 10 random numbers, the switch 11, the counter 12, the number of control commands, the group of counters 3 the number of commands to be transmitted, the counter 14 the number of transmitted commands, the counter 15 the number of commands received. The control path error modeling block 5 contains a generator of .16 random impulse noise, an HE element 17 and an AND element 18.

At the outputs of the switches 11, information flows are generated that simulate the information flows received at autonomous stations when targets are detected and data collected for these purposes and transmitted to the central station.

To simulate the loss of information during the transmission of collected data from autonomous stations to the center, chains from the generator 6 of a random stream of interference pulses, NOT elements 7 and blocks 8 are used. At random moments of appearance of pulses at the outputs of the generators 6, the control inputs of the corresponding blocks 8 will APPEAR; control signals prohibiting the passage of codes through the corresponding blocks 8. Thus, the distortion (loss) of the collected data due to the effect of errors (noise) on the informational flows during their transmission from autonomous stations to the processing center is simulated.

From the outputs of blocks 8, the codes arrive at the information inputs of the decoders 3. At the moment the code arrives, a control signal (impulse) appears at the output of this decoder arriving at the counting input of the corresponding lean counter 15. Block 5 The control works similarly to blocks 6-8.

The device works as follows.

Before the device starts working, through its installation input, the control inputs of all counters receive a control signal, having enclosed it; these counters. Sensors 10 random numbers generate random codes that cross to informational

the inputs of the respective switches 11. Generators 4 of a random stream of pulses at random times generate control pulses, the number of which is counted

the corresponding counters are 12. The pulses at the outputs of the generators 4 simulate the process of detecting targets at autonomous stations of the system and sending a control command to collect data from all stations of the system.

The pulses from the outputs of the generators 4 are fed to the inputs of blocks 5 of modeling the control path errors, which are intended to simulate the processes of loss of control command codes during their transfer to the data collection devices of all stations systematically because of noise, malfunctions, and so on. Number of pulses from the outputs of blocks 5, counts are counted 13. The elements of OR 9 produce in each modeling channel the combining of pulses of blocks 5 and control the operation of switch 11. Signals from its

the output through the block 8 elements And is fed to the input of the decoder 3, the signal at the output of which is formed with each receipt of the sensor code 10 at its input. The counters 15 count the number of pulses at the output of the decoder 3. The outputs of the counters are connected to the inputs of the indication unit 1, which is intended to indicate the main parameters of the simulated processes. Thus, in the display unit 1, the number of important targets detected at each autonomous station (the contents of counters 12), the number of control commands received at

random interference torus, laziness counter, counter

Claims (1)

each autonomous station for each control path (the contents of the counters 13), the number of commands for which the collected data was received in the processing center from each autonomous station (the contents of the counters 15) and the number of targets for which the required data was collected at each autonomous station (the contents of the counters 14 I. The formula of the invention A device for simulating data acquisition systems, comprising a first channel for simulating the operation of a data collection point consisting of a random flow generator of control commands, a random number sensor, a switch, an AND block, a decoder, a NOT element, a number of commands for controlling the transmitted commands and a counter the number of received commands, the counting input of which is connected to the output of the decoder, the inputs of which are connected respectively to the outputs of the block of elements I, the control input of which through the element NOT connected to the output of the random noise pulse generator, the outputs of the random number sensor are connected respectively to the information inputs of the switch, the outputs of which are connected respectively to the information inputs of the I block, the output of the random control pulse flow generator is connected to the counting input of the counter of control commands G and the outputs of the counter of the number of commands transmitted and the counter of the number of commands received are respectively an output of the number of important targets, the output is defined and the number of targets, the output of the total number of device commands, the installation inputs of all counters are combined and are the installation input of the device, characterized in that, in order to expand the function The device’s national capabilities by reproducing the command-autonomous mode of controlling the operation of data collection points, it additionally contains (K-1) channels for modeling the operation of the data collection point, and each channel for modeling the operation of the data collection point also includes the OR element, a group of counters for the number of commands transmission, and a group of control path error modeling blocks, consisting of a series-connected random impulse noise generator, an element, and an element, And, the outputs of elements all control path error modeling blocks in each channel of modeling the data collection point are connected respectively to the inputs of the OR element and the information input of the counter of the number of commands to be transmitted, the group, the output of the OR element in each modeling channel of the data collection point is connected to the control input of the Switch and the counting input of the counter of the number of transmitted commands of the own modeling channel, the output of the generator of a random stream of impulses of control commands of the i-gokanap to simulate the operation of point sb The data link (, K) is connected to other inputs of the elements AND ix of the error modeling block of the control path of all the channels of modeling the data collection point, the installation inputs of counters of the number of commands to be transmitted, the groups connected to the installation input of the device, and their outputs and outputs of counters of the number of commands controllers, counters of the number of transmitted commands and counters of the number of commands received, modeling channels data collection points are the outputs of the number of control commands, the number of important targets, the determination of the number of targets and the overall the number of device control commands. 18 1 77 / 6