RU2758591C1 - Device for simulating a radio-electronic situation - Google Patents

Abstract

FIELD: radio engineering.

SUBSTANCE: invention relates to the field of radio engineering, in particular to devices for simulating a radio-electronic situation. The device for simulating a radio-electronic situation contains a control unit connected in parallel to a unit for generating a reference signal and a unit for calculating time delay, connected to a unit for storing time delay, N outputs of which are connected to N delay lines. The device provides the possibility of simulating the functioning of radio emission sources (RES) with a given position relatively to receiving posts of a radio-technical device for determining the location of RES by a difference-rangefinder method. For this purpose, the device is made with the possibility of forming signals with time delays in output channels of the simulation of the radio-electronic situation, calculated in accordance with the geometry of the location of RES and receiving posts of the radio-technical device for determining the location of RES entered into the control unit.

EFFECT: technical result of the invention is the possibility of simulating a radio-electronic situation to assess the accuracy of determining the location of RES by radio engineering means in a difference-rangefinder method.

1 cl, 1 dwg

Description

Application area

The invention relates to the field of radio engineering, in particular to devices for simulating the radio-electronic environment and can be used to assess the accuracy of determining the location of radio emission sources (PRS) by radio-technical means by differential-range finding method.

State of the art

Known simulator of navigation signals [1. Russia, patent No. 123976, G01S 7/40, 2013] spacecraft, designed to generate radio signals similar in structure to the signals emitted by such devices.

It is also known a single-channel device for simulating periodic signals of variable frequency [2. EP patent no. 030053, G01S 7/40, 1981]. It consists of a clock signal generator of a given frequency, a control device, a controlled divider, a computer and a digital-to-analog converter.

Known device for simulating the electronic environment [3. Russia, patent No. 2687270, G01S 7/40, 2018]. It consists of a clock signal generator and series-connected control units, a memory device and an accumulator, the second input of which is connected to the output of the clock signal generator, N signal generation channels, each of which contains a series-connected memory device for storing the values of phase shifts, a phase shifter and a signal conditioning unit and can be used in assessing the quality and setting up radio monitoring devices that determine the location of radioactive sources in a goniometric way, as well as for training the maintenance personnel of these devices, in relation to the real conditions of use.

The disadvantage of these devices is the impossibility of imitating the electronic situation for assessing the quality and setting up the radio-technical means for determining the position of the IRR by the differential-range-finding method.

The closest analogue (prototype) of the proposed device in terms of the technical essence and the achieved technical result is a device - a simulator of radio signals [4. Russia, patent No. 2591045, G01S 7/02, 2016], which allows simulating the operation of a real IRI from a given azimuth and containing a clock signal generator, a control device, a memory device, an accumulating adder, as well as N-channels of signal formation, each of which contains a memory device storing values of phase shifts, phase-shifting device and signal conditioning device.

The disadvantage of this device is the impossibility of simulating the electronic situation for assessing the accuracy of determining the location of the radioactive source of radio-technical means of the differential-rangefinder method.

The purpose of the invention is to provide the possibility of simulating the electronic situation for assessing the accuracy of determining the position of the radioactive source by radio engineering means of the differential-range finding method.

The essence of the invention

The technical result of the invention is the expansion of the functionality of the known simulator of radio signals, namely, imitation of the electronic situation for assessing the accuracy of determining the position of the radioactive source by radio engineering means of the differential-ranging method, due to the simultaneous generation of signals with different time delays on N channels of the simulator relative to the time of signal formation on the reference channel (no time delay).

The technical result is achieved by the fact that the device includes a control unit connected in parallel with a block for generating a reference signal and a block for calculating time delays, while the block for calculating time delays is connected to a storage unit for time delays, N outputs of which are connected to N delay lines and provides the possibility of simulating the functioning of a radio emission source by generating signals in the output channels of the simulator with time delays calculated taking into account the geometry of the location of the radioactive source and receiving posts of the radio device introduced by the operator in order to assess the accuracy of determining the location of the radioactive source by radio engineering means of the differential-ranging method.

The time shift of the signal in each N channel, formed by the corresponding delay line relative to the reference channel, is determined by the operator-specified geometry of the location of the receiving posts of the radio-technical means for determining the position of the radio-technical means by the differential-ranging method (the number of receiving posts and the distance between them) and the given position of the radio equipment relative to the receiving posts of the radio-technical means , which according to [4. R.V. Volkov, S.V. Dvornikov, V.N. Sayapin, A.N. Simonov. Fundamentals of construction and operation of differential-range-finding systems of coordinateometry of radio emission sources. / Ed. R.V. Volkova: Textbook. allowance. - SPb .: VAS, 2013.116 p., P. 19-21] makes it possible to assess the accuracy of determining the location of the radioactive source of radio-technical means when connecting its receiving posts to the outputs of the device for simulating the electronic situation.

The assessment of the accuracy of determining the location of the radio-electronic device can be carried out by the operator by comparing the coordinates of the radio-technical device calculated by the radio-technical means using the device for simulating the electronic situation, and the coordinates entered by the operator in the control unit of the device for simulating.

FIG. 1 shows a functional diagram of a device for simulating an electronic environment.

The control unit is designed to select the parameters of the generated signal (center frequency), and to indicate the geometry of the relative position of the PX and the receiving posts of the radio-technical means for determining the location of the IRR by the differential-range-finding method.

The block for calculating time delays is designed to calculate the values of time delays for each receiving post of the radio technical means for determining the location of the radioactive source by the differential-ranging method, taking into account the geometry of the relative position of the radioactive source and the receiving posts of the radio equipment entered by the operator in the control unit and transferring the values to the storage unit of time delays.

The block for storing time delays is intended for buffer (operational) storage of the values introduced into the generated signal of time shifts in accordance with the geometry of the relative position of the IRI and the receiving posts of the radio equipment entered by the operator in the control unit.

A block for calculating time delays, a block for storing time delays can be implemented on the basis of a microcontroller, for example "ATmega64A" (http://www.atmel.com/devices/-atmega-64A.aspx).

The reference signal shaping unit is designed to generate radio pulses at the carrier frequency set in the control unit.

The reference signal shaping unit can be made in the form of a direct digital synthesis frequency synthesizer, for example, "AD9959" (http://www.analog.com/ru/rfif-components/direct-digital-synthesis-dds/ad9959/products/product. html).

The delay lines are designed to form the time delay of the reference signal in each channel, based on the calculated values of the time delays and transmitted from the time delay storage unit.

The delay line can be made in the form of a programmable delay line, for example "PADL6A" (http://www.gigabaudics.com/PADL6Zpadl6.html).

The device for simulating the electronic environment works as follows.

From the control unit (output 1), data is sent to the block for calculating time delays in accordance with the geometry of the mutual arrangement of the IRI and the receiving posts of the radio equipment entered by the operator, in which the time delays are calculated for setting up each delay line, according to the expression:

- разность расстояний между i-ым приемным постом радиотехнического устройства до ИРИ и опорным приемным постом до ИРИ [5. Р.В. Волков, С.В. Дворников, В.Н. Саяпин, А.Н. Симонов. Основы построения и функционирования разностно-дальномерных систем координатометрии источников радиоизлучений. / Под ред. Р.В. Волкова: Учеб. пособие. - СПб.: ВАС, 2013. 116 с., с. 23-29].where

- the difference in distances between the i-th receiving post of the radio engineering device to the IRI and the reference receiving post to the IRI [5. R.V. Volkov, S.V. Dvornikov, V.N. Sayapin, A.N. Simonov. Fundamentals of construction and operation of differential-range-finding systems of coordinateometry of radio emission sources. / Ed. R.V. Volkova: Textbook. allowance. - SPb .: VAS, 2013.116 p., P. 23-29].

сдвинутая по времени относительно сигнала

в канале без временной задержки (опорного), согласно введенной оператором геометрии взаимного расположения ИРИ и приемных постов радиотехнического средства [5. Р.В. Волков, С.В. Дворников, В.Н. Саяпин, А.Н. Симонов. Основы построения и функционирования разностно-дальномерных систем координатометрии источников радиоизлучений. / Под ред. Р.В. Волкова: Учеб. пособие. - СПб.: ВАС, 2013. 116 с., с. 19-21].From the block for calculating time delays, the calculated values are fed to the block for storing time delays for buffer (operational) storage. From the block for storing time delays (output 1, ..., output N) the corresponding delay lines receive the values of time delays, simultaneously from the block for generating the reference signal, at the frequency selected by the operator, the value of which is transmitted from the control unit (output 2), to all delay lines a reference signal is received at the frequency selected by the operator in the control unit, and, taking into account the corresponding time delay, a copy of the reference signal is formed at the output of each delay line

time-shifted relative to the signal

in the channel without a time delay (reference), according to the operator introduced the geometry of the relative position of the IRI and the receiving posts of the radio equipment [5. R.V. Volkov, S.V. Dvornikov, V.N. Sayapin, A.N. Simonov. Fundamentals of construction and operation of differential-range-finding systems of coordinateometry of radio emission sources. / Ed. R.V. Volkova: Textbook. allowance. - SPb .: VAS, 2013.116 p., P. 19-21].

Thus, at the output of each channel of the device for simulating the electronic situation, a signal will be generated according to the expression:

- частота опорного сигнала,

- временная задержка сигнала с i-го канала, обеспечиваемая i-ой линией задержки и рассчитанная согласно введенной оператором геометрии взаимного расположения ИРИ и приемных постов радиотехнического средства с помощью выражения (1), относительно сигнала опорного канала (i=0) без временной задержки (Δt₀=0).where

- the frequency of the reference signal,

is the time delay of the signal from the i-th channel, provided by the i-th delay line and calculated according to the geometry of the mutual arrangement of the IRI and the receiving posts of the radio equipment introduced by the operator using expression (1), relative to the signal of the reference channel (i = 0) without time delay ( Δt ₀ = 0).

Comparison of the proposed device with the prototype and analogues allows us to conclude that it meets the criterion of novelty and has a significant difference. The positive effect is achieved due to the inclusion of the specified means in the composition of the device for simulating the radio-electronic situation and performing the tasks described above, which makes it possible to simulate the radio-electronic situation for assessing the accuracy of determining the position of radio-electronic devices by means of the differential-range finding method.

Based on the above description of the known components, including those given above as examples, using the technological equipment known in the radio-electronic industry, the device for simulating the electronic situation can be manufactured and used according to its functional purpose. Thus, the proposed device for simulating the electronic environment, the method meets the criterion of the invention "applicability".

Claims (1)

A device for simulating the electronic situation, containing a control unit connected in parallel with a block for generating a reference signal and a block for calculating time delays, while the block for calculating time delays is connected to a storage unit for time delays, N outputs of which are connected to N delay lines, characterized in that it is possible imitating the functioning of the radio emission source with a given position relative to the receiving posts of the radio technical means for determining the location of the radio emission source by the differential-ranging method by forming in the output channels of the simulation device, the number of which corresponds to the receiving posts of the radio technical location determination device, signals with time delays calculated in accordance with the input in the unit control of the geometry of the location of the radio emission source and receiving posts of the radio engineering device for determining the location of radio emission sources, as well as on the basis of the principle of determining the location of radio emission sources by the difference-ranging method.

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