SU1121682A1 - Device for simulating ultrashort radio-communication channel in communication system - Google Patents

Abstract

1. DEVICE LLYA MODEGO -. RELATIONSHIPS OF THE ULTRACTOR WAVE RADIO CHANNEL IN THE COMMUNICATION SYSTEM, containing a group of generators of useful signat. . BOW and a generator of random uncorrelated voltages, differing from the fact that, in order to extend the functionality by simulating random interference, determined by the joint operation of several radio facilities and loading of the radio channel, it contains the attenuator group, simulator useful signal fading. made as a group of controlled attenuators, the control inputs of which are connected respectively to the outputs of a generator of random uncorrelated voltages, an electric simulator (of an awning environment, made as a group of adders, the first inputs of which are connected respectively to the outputs of the first group of the isolation unit, the inputs of the first group which are connected respectively to the outputs of the attenuators of the group, the second group of inputs and outputs of the isolation unit is respectively a group of control inputs and outputs of the device a group of transceiver radio stations consisting of receivers and transmitters, a radio channel boot simulator containing a simulation signal generator and a random uncorrelated pulse generator, the first group of random uncorrelated radio load simulator outputs connected to the start of the useful group generators, and the second group the outputs of the generator of random uncorrelated pulses of the radio channel load simulator are connected to the input Odes of launching transceiver radio stations, information inputs of generators (L of useful group signals and inputs of transmitters of transceiver radio stations of the group are connected respectively to the outputs of the modulating signal generator of the simulator of the radio channel, the outputs of the generators of the group’s useful signals are connected to the information inputs of the corresponding signal generators of the group and connected to the information inputs of the corresponding signal generators). controlled attenuators of the fading simulator group of the useful signal, the outputs of the controlled attenuators of which connected to the second inputs of the adders of the electromagnetic simulator group, the outputs of the adders of the group of which are connected to the inputs of the receivers of the corresponding transceiver station, the outputs of the receivers of which are the group of outputs of the device, the output of the transmitter-. The chix in the group transmitting radio stations is connected respectively to the inputs of the variable attenuators of the electromagnetic simulator group.

Description

2. A device according to claim 1, characterized in that the isolating unit of the simulator of the electromagnetic arrester will support the group of isolating input circuits and the group of isolating output circuits, each of which contains serially connected first, BTopof and third resistors, other terminals of the third resistors of all circuits connected, other terminals of the first resistors of all circuits are connected to the zero bus

21682

potential, the combined pins of the first and second resistors, and the combined pins of the second and third resistors of the decoupling input circuits are respectively the second and first groups of inputs of the expansion unit, the combined pins of the second and third resistors, and the combined pins of the first and second resistors are, respectively, the first and second groups of outputs of the isolation unit.

The invention relates to electronic modeling and can be used in laboratory tests of VHF radio systems - to simulate radio channels operating in real conditions of the electromagnetic environment of an object and loading the radio channel. A device for simulating a digital signal transmission path is known, containing a register, a keypad, triggers, and ilj. The closest to the present invention is a device for simulating discrete channels containing a clock pulse generator connected to the inputs of a master oscillator and a random stream sensor, outputs which are connected to the first inputs of the elements AND the first group of the second inputs of which are connected to the outputs of the delay elements, the inputs of which are connected respectively to the outputs of the elements And the second In this group, the first inputs of which are connected to the output of the master oscillator, and the second inputs are connected respectively to the outputs of a multi-stable trigger, whose inputs are connected respectively to the outputs of sensors of random sequences, the outputs of the elements and the first group are connected to the inputs of the element OR, respectively, the output of which is the output of the device. However, the known device does not allow to obtain conditions that are realistic due to the presence in the real channel, along with the phgo-octation disturbance, of a large group of electrical disturbances concentrated along the spectrum, which in some cases have a decisive influence on the accuracy of information reception. The purpose of the invention is to expand the functionality of the device by simulating random interference, determined by the joint operation of several radio devices and the loading of a radio channel. The goal is achieved by the fact that a group of attenuators, a useful signal fading simulator, made as a group of controlled attenuators, are introduced into a device for simulating a VHF radio channel in a communication system containing a group of useful signal generators and a generator of random uncorrelated voltages. which inputs are connected respectively to the outputs of the random necorrel generator; Voltage simulator, electromagnetic simulator, made as a group of adders, the first inputs of which are connected respectively to the outputs of the first group of the junction block, the inputs of the first group of which are connected respectively to the outputs of the attenuators of the group, the second group of inputs and outputs of the junction block, respectively a group of control inputs and outputs of the device, a group of transceiver radio stations consisting of receivers and transmitters; a radio channel loading simulator containing a generator; its signal and a generator of random uncorrelated pulses, the first group of outputs of the generator of random non-correlated signals of the radio channel boot simulator respectively connected to the start inputs of the generators of useful signals of the group, and the second group of the outputs of the generator of random non-correlated pulses of the radio channel boot simulator respectively connected to the start inputs of the transceiver radio stations information inputs of the generators of useful signals of the group and the inputs of transmitters transceiver x radio stations of the group are connected respectively to the outputs of the generator of the modulating signal of the radio channel load simulator, the outputs of the generators of the useful signals of the group are connected to the information inputs of the corresponding controlled attenuators of the useful fade simulator group through the corresponding attenuators of the useful signal, the outputs of the controlled attenuators of which are connected to the second inputs of the adders of the electromagnetic simulator group conditions, the outputs of the adders of the group which are connected to the inputs of the receivers respectively group favoring transceiver station receiver outputs which are a group of information Yield device outputs radio transmitters priemoperedayurdih group are connected respectively to the inputs of variable attenuators group elektromagnitnoy.obstanovki simulator.

1 The electromagnetic environment simulator isolation unit contains a group of initiating input circuits and a group of initiating output circuits, each of which contains in series the first, second, and third resistors, the other terminals of the third resistors of all circuits are connected, the other terminals of the first resistors of all circuits are connected to the zero bus potential, the combined pins of the first and second resistors and the combined pins of the BTopoR, o and the third resistors of the junction input circuits are respectively the second and the first group PAMI input decoupling unit, the combined findings of the second and third resistors and the combined findings of the first and second resistors decoupling output circuits are respectively first and second linker groups isolator block outputs.

. FIG. 1 is a block diagram of the device; in fig. 2 is equivalent to a block diagram.

The device contains a group of generators of 1 useful signals, a group of attenuators 2, a simulator of 3 fading signals, including a generator of 4 random uncorrelated voltages and a group of control of attenuators 5, a simulator of electromagnetic environment 6 containing a group of adders 7, block 8 of isolation and a group of attenuators 9 , a generator of 10 random uncorrelated streams of rectangular pulses and a generator of 11 modulating signals, which form a simulator of 12 radio channel loads, as well as a group of transceiver radio stations 13 with receiving s transmitters 14 and 15.

FIG. 2 The following notation is accepted: RPG - resistance, providing a geadannuyu separation and

agreement: R. Ri

R,

Rg - sop K o

The main goal is to ensure the isolation of the control output relative to the main output and its coordination. I.

The outputs of the generators of useful signals are connected to the inputs of attenuators 2, the outputs of which are connected to the inputs of controlled attenuators 5, to the control inputs of which are connected respectively to the outputs of the generator 4 uncorrelated voltages, the outputs of attenuators 5 are connected respectively to the first inputs of adders 7 whose outputs are connected with inputs of receivers 14, the first group of outputs of simulator 12 of loading of radio channels is connected respectively to the control inputs of generators 1 of useful signals, the second group of output Simulator 12 downloads of radio channels are connected respectively to the inputs of transceiver radio stations 13, a third group of outputs of simulator 12 of downloads of radio channels are connected respectively to information inputs of the generator 1 of useful signals and in parallel with inputs of transmitters 15 whose outputs are connected to inputs of attenuators 9 whose outputs are connected to inputs of the unit 8 junctions, the outputs of which are connected to the second inputs of the adders 7.

The device works as follows. Initially, prior to the start of laboratory studies, initial conditions are established that correspond to the construction of the communication system under investigation. To do this, attenuators 2 are used to set the necessary attenuation values corresponding to the attenuation of the signal in free space, depending on its frequency and the removal of the correspondent. In the simulator 6 of the electromagnetic environment at the facility, attenuators 9 also set the required values of attenuation, radiation of transmitters 15 corresponding to transient attenuation of these radiations depending on the simulated spatial extension of the transmitting antennas at the object. Generator U turns on the useful signal generators and starts the transceiver radio stations 13 of the object. When the generator 1 is turned on, the modulation signals modulate signals to the information inputs of the generator 1 useful signal 1 and transmitters 1 5. From the outputs of the useful signal generators 1 the signals go to the inputs of attenuators 2 and further from their outputs to attenuators 5. The attenuation of attenuators 5 is carried out using random non-correlated voltage generators 4 according to a logarithmic normal law. . Since the voltages at different outputs of the generator 4 are uncorrelated, the fluctuations of the useful signals in different channels will be independent. From the outputs 82 of the attenuators 5, the signals arrive at the first inputs of the adders 7 of the simulator 6 of the electromagnetic environment. The second inputs of adders 7 through attenuators 9 in the block 8 junction receive additive interference from the transmitting transmitters 15. From the outputs of adders 7, the mixture of signals and "interference" goes to the inputs of receivers 14, respectively, from whose outputs the resultant signal and interference arrive at the output of the device before recording and measurement, where the output characteristics of the system are evaluated by measuring the signal-to-noise ratio, the reliability of the received information regarding the transmitted in each channel, depending on the number and distance The correspondents in the VHF communication system, the conditions of the electromagnetic environment at the facility and the intensity of radio channels. The use of the proposed device as compared to the base one, which takes into account only the influence of the fluctuation disturbance, makes it possible to simulate the operation of the VHF radio channel in the communication system, taking into account the real conditions of the complex electromagnetic environment at the facility, the effect of interfering signals from closely located transmitters, the number and removal correspondents in the communication system, the placement of radio equipment at the facility, which in turn may reduce, and in some cases, eliminate the volume of field tests altogether.

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Claims (2)

1. DEVICE FOR MODEL-. ROWING OF THE ULTRA-SHORT WAVE RADIO CHANNEL IN THE COMMUNICATION SYSTEM, containing a group of useful signal generators and a random uncorrelated voltage generator, characterized in that, in order to expand the functionality by simulating random interference determined by the joint operation of several radio facilities and loading the radio channel, it additionally contains an attenuation group , simulator of fading of a useful signal ,. 'made in the form of a group of controlled attenuators, the control inputs of which are connected respectively to the outputs of the random uncorrelated voltage generator, an electromagnetic simulator made in the form of a group of adders, the first inputs of which are connected respectively to the outputs of the first group of the isolation block, the inputs of the first group of which are connected respectively to the outputs attenuators of the group, the second group of inputs and outputs of the isolation block is a group of control inputs and outputs of the device, a group of transceiver radios consisting of receivers and transmitters, a radio channel load simulator containing a modeling signal generator and a random uncorrelated pulse generator, the first group of outputs of the random non-correlated signal generator of the radio channel loading simulator connected to the start inputs of the useful signal generators of the group, and the second group of outputs generator random uncorrelated pulses simulator download radio channel is connected respectively to the input m start transceiver radio stations, the information inputs of the generators of useful signals of the group and the inputs of the transmitters of the transceiver radio stations of the group are connected respectively to the outputs of the generator of the modulating signal of the boot simulator, the radio channel, the outputs of the generators of useful signals of the group through the corresponding attenuators of the group are connected to the information inputs of the corresponding controlled attenuators of the group of the simulator of fading useful signal, the outputs of the controlled attenuators of which are connected to the second by the moves of the adders of the simulator group of the electromagnetic environment, the outputs of the adders of the group of which are connected to the inputs of the receivers of the corresponding transceiver radio station of the group, the outputs of the receivers of which are the group of outputs of the device, the output of the transmitter. group of transceiver radio stations of the group are connected respectively to the inputs of the variable attenuators of the simulator group of the electromagnetic environment. „SU“ 1121682 2. The device according to π. 1, characterized in that the decoupling unit of the electromagnetic environment simulator contains a group of decoupling input circuits and a group of decoupling output circuits, each of which contains first, second and third resistors in series, the other terminals of the third resistors of all circuits are combined, the other terminals of the first resistors of all circuits are connected to the zero potential bus, the combined terminals of the first and second resistors and the combined terminals of the second and third resistors of the decoupling input circuits are corresponding permanently and second groups of first input decoupling unit, the combined findings of the second and third resistors and the combined findings of the first and second output decoupling resistors, circuits are respectively first and second groups interchange unit outputs.