SU1109758A1 - Device for simulating data transmission systems - Google Patents

Abstract

A DEVICE FOR MODELING TRANSMISSION DATA SYSTEMS, containing a general generator of a random pulse flow, a pulse counter, the input of which is connected to the output of a general generator of a random pulse flow, and the output connected to the input of the display unit, the first channel of information modeling and transmission, which contains the first counter and are connected in series random pulse generator, the first element is NOT, and the first element is AND, the other input of which is connected to the output of the general generator of a random stream of pulses, distinguishing so that, in order to expand functionality by simulating star-shaped data transmission systems, it additionally contains a group of information transmission simulation channels, and in each modeling channel for information transmission, a second random pulse generator is connected in series, the second element is NOT, the second is AND, and the second ( L counter1, the output of the first element AND is connected to the input of the first counter and another input of the second element I, and the outputs of the meters are connected to the corresponding inputs display unit. from h SP 00 f2

Description

The invention relates to communication technology and digital computer technology and can be used in the design and simulation of a data transmission system.

A discrete channel simulator is known. It contains a synchronization unit, a Markov. Sequence generator, an intermediate memory block, a threshold block, a random number sensor, an AND element and a modulo two. The device also includes a burst generator, an encoder, a switch shifting register and UE-1 modulo two 11.

It is also known a device for simulating a communication system operation comprising a multi-channel random process generator, a switch, a controlled saw-tooth generator, comparison blocks, an OR element, triggers with prohibition elements, a random process generator, a computing unit, a two-threshold selector, a reversible counter, a DAC key and multiplier L21.

These devices cannot be used to simulate a star data transmission system.

The closest to the proposed technical entity is a device for modeling a communication system, containing a random pulse generator, two triggers, the first pulse counter, a random pulse generator, two triggers, the first pulse counter, the pulse generator, the element NOT, the output of which is connected from the control input of the element I, the output of which is connected to the first input of the first trigger, the output of which is connected to the input of the first pulse counter. The device also contains second, third and third pulse counters and a display unit, with the output of the pulse generator connected to the inputs of the second and third pulse counters, the first input of the second trigger and the information input of the element And, the output of the second pulse counter connected to the second input of the second trigger, whose output connected to the input of the fourth pulse counter and the second input of the first trigger output of a random flow generator

the pulses are connected to the input element NOT, the outputs of the first third and fourth pulse counters are connected to the corresponding inputs of the display unit C31.

However, the known device does not provide the possibility of modeling data transmission systems with a star-shaped block diagram.

The purpose of the invention is to expand the functionality of the device by simulating a star data transmission system.

This goal is achieved in that a device for simulating data transmission systems, containing a common generator of a random flow of pulses, a pulse counter, whose input is connected to the output of a common generator of a random flow of pulses, and the output is connected to the input of a display unit, the first channel of information transmission simulation, containing the first counters and serially connected first random-pulse generator, the first element is NOT and the first element is AND, the other input of which is connected to the output of the common random-flow generator and pulses, a group of channels for simulating information transmission is introduced, and in each modeling channel for transmitting information, the second random generator, the second element NOT, the second element AND and the second counter, are connected in series, the output of the first element AND is connected to the input of the first counter and the other input of the second element AND , and the outputs of the meters are connected to the corresponding inputs of the display unit.

In such a data transmission system, the latter are transmitted from the central station to the N subordinate stations. Each of the subordinate stations, receiving data from the central station, transmits to the address of the central station receipts about the results of data reception. At the same time, there may be losses of data during transmission from the central station to subordinates, receipts on the results of receiving data during transmission from subordinate stations to the central one.

The drawing shows a block diagram of the device.

The device contains a common generator of 1 random stream of pulses. 3 counter 2 pulses, group of channels 3 modeling information transfer and in each channel the first random pulse generator, the first element is NOT 5, the first element is AND 6, the first counter is 7, the second element is HE 8, the second element is AND 9, the second counter 10, the second generator 11 random pulses, block 12 display. The device works as follows. The generator 1 of a random stream of pulses generates pulses at random times, which are fed to the input of the counter 2 pulses and the second; inputs of the first element And 6, which simulates the flow of data from the central station to all subordinates. Generator 4 random pulses with the first element NOT 5, as well as with the first element And 6 are designed to simulate the flow of errors that occur on communication channels when transmitting data from the central station to all slaves. At random times at the inputs of the first element NOT 5, control signals appear that prohibit the passage of pulses through the corresponding elements AND 6. This simulates the distortion (loss) of the message during its transmission over the communication channel (from the central station to the subordinate nym). If the output of the generator 4 does not receive a pulse, then the first 584 input of the AND 6 element receives a signal allowing the pulses to pass through the AND 6 element. from subordinate stations to the central one (due to the presence of noise in the reverse communication channel). Counters 7 and 10 are designed to count the number of messages received by each of the slave stations, as well as the number of receipts from each slave station to the central one. The outputs of the counters 7 and 10 pulses are connected to the inputs of the block 12 of the display. Thus, at block 12, the number of messages arriving from the central station on all subordinates, the number of messages arriving at each of the subordinate stations, and the number of receipts arriving from each of the subordinate stations and the central one are displayed. The proposed device for modeling a data transmission system provides the ability to model data transmission systems with a star-shaped structure. Such modeling of data transmission systems at the stage of their development allows reducing the development time while reducing the cost of the work itself.

Claims (1)

DEVICE FOR MODELING DATA-TRANSFER SYSTEMS, containing a common generator of a random pulse stream, a pulse counter, the input of which is connected to the output of a common generator of a random pulse stream, and the output is connected to the input of the display unit, the first channel for modeling Information Transmission, containing the first counter and the first connected in series random pulse generator, the first element is NOT and the first element AND, the other input of which is connected to the output of the general generator of a random pulse stream, characterized in that o, in order to expand functionality by modeling star-shaped data transmission systems, it additionally contains a group of information transmission modeling channels, and in each information transmission modeling channel, a second random pulse generator, a second element are NOT connected, the second element is NOT, the second element And and the second | counter, and the output of the first element: 1¼ And connected to the input of the first If counter and another input of the second | element And, and the outputs of the counters are connected to the corresponding inputs of the display unit.