UA136598U - SYSTEM WITH MULTIPLE INPUTS AND MULTIPLE OUTPUTS (MIMO) WITH MULTIPARAMETRIC EVALUATION - Google Patents

Abstract

Multi-input multi-input (MIMO) multi-parameter estimation system comprising a transmitting portion, a receiving portion, the transmitting portion comprising a data source, an encoder, a low frequency modulator, a buffer device, a first transmitting portion channel, a second transmitting portion channel, when the first channel of the transmitting part includes a high frequency modulator of the first channel of the transmitting part, a modulator of the expansion sequence of the first channel of the transmitting part, a frequency synthesizer of the first channel of the transmitting part, and the second channel of the transmitting part contains a modulator of the second channel of the transmitting part the frequency synthesizer of the second channel of the transmitting part, and the output of the data source is connected to the input of the encoder, the output of which is connected to the input of the low frequency modulator, the output of the low frequency modulator is connected to the input of the buffer device with the input of the first channel of the transmitting part and the input of the second channel of the transmitting part, the outputs of which are connected to antenna devices, the receiving part contains the first channel of the receiving part, the second channel of the receiving part, the buffer device of the receiving part. data, the module for assessing the state of the channel of the receiving part, the first channel of the receiving part includes a demodulator of the expansion sequence of the first channel of the receiving part, a demodulator of the first channel of the receiving part, a frequency synthesizer of the first channel of the receiving part, and the second channel of the receiving part , a demodulator of the second channel of the receiving part, a frequency synthesizer of the second channel of the receiving part, and the output of the first channel of the receiving part and the output of the second channel of the receiving part are connected to the input of the receiving buffer device the output of which is connected to the converter of the quadrature of the receiving part, the output of which is connected to the input of the decoder of the receiving part and to the first input of the module for assessing the state of the channel of the receiving part, the output of which is connected to the second input of the connected to the input of the data receiver and the second input of the module for assessing the state of the channel of the receiving part, in addition, the system further comprises a device for multiparametric assessment of the channel of the first channel of the receiving part, a device for multiparametric assessment of the channel of the second channel of the receiving part. located in the first channel of the receiving part and connected to the input of the frequency synthesizer of the first channel of the receiving part, the device for multiparametric assessment of the channel of the second channel of the receiving part is placed in the second channel of the receiving part and connected to the input of the synthesizer the receiving part, the inputs of the first channel of the receiving part and the second channel of the receiving part are connected to the antenna devices.

Description

encoder, the output of which is connected to the input of the low-frequency modulator, the output of the low-frequency modulator is connected to the input of the buffer device, the output of which is connected to the input of the first channel of the transmitting part and the input of the second channel of the transmitting part, the outputs of which are connected to the antenna devices, the receiving part contains the first channel of the receiving part, the second channel of the receiving part, the buffer device of the receiving part, the quadrature converter of the receiving part, the decoder of the receiving part, the data receiver, the evaluation module of the state of the channel of the receiving part, while the first channel of the receiving part contains the demodulator of the expansion sequence of the first of the channel of the receiving part, the demodulator of the first channel of the receiving part, the frequency synthesizer of the first channel of the receiving part, and the second channel of the receiving part contains the demodulator of the expansion sequence of the second channel of the receiving part, the demodulator of the second channel of the receiving part, the frequency synthesizer of the second channel receiving part, and the output of the first channel of the receiving part and the output of the second channel of the receiving part are connected to the input of the buffer device of the receiving part, the output of which is connected to the quadrature converter of the receiving part, the output of which is connected to the input of the decoder of the receiving part and to the first input of the module evaluation of the state of the channel of the receiving part, the output of which is connected to the second input of the decoder of the receiving part, the output of which is connected to the input of the data receiver and the second input of the module of assessing the state of the channel of the receiving part, in addition, the system additionally contains a device for multi-parameter evaluation of the state of the channel of the first channel of the receiving part parts, a device for multi-parameter evaluation of the state of the channel of the second channel of the receiving part, and a device for multi-parameter evaluation of the state of the channel of the first channel of the receiving part is located in the first channel of the receiving part and connected to the input of the frequency synthesizer of the first channel of the receiving part, a device for multi-parameter evaluation of the state of the channel of the second channel of the receiving part is placed in the second channel of the receiving part and connected to the input of the frequency synthesizer of the second channel of the receiving part, while the inputs of the first channel of the receiving part and the second channel of the receiving part are connected to antenna devices.

The utility model belongs to the field of communication, in particular to special communication technology, namely, to data transmission systems by means of special purpose wireless communication.

A known device for multi-parameter evaluation of the channel state, containing a unit for evaluating the frequency characteristic of the channel state, a unit for evaluating the impulse characteristic of the channel state, a unit for evaluating the probability of a bit error of the channel state, and a unit for forming a generalized evaluation of the channel state, and the outputs of the unit for evaluating the frequency characteristic of the channel state, the unit for evaluating the impulse response characteristics of the state of the channel and the block of estimation of the probability of a bit error of the state of the channel are connected to the input of the block of the formation of the generalized estimate of the state of the channel 11.

Among the disadvantages of the multi-parameter channel condition assessment device, which is chosen as an analogue, is the low speed of operation and bandwidth.

The closest analogue is a system with multiple inputs and multiple outputs (MIMO) containing a transmitting part, a receiving part, while the transmitting part contains a data source, an encoder, a low-frequency modulator, a buffer device, a first channel of the transmitting part, a second channel of the transmitting part, while the first channel of the transmission part contains a high-frequency modulator of the first channel of the transmission part, an expansion sequence modulator of the first channel of the transmission part, a frequency synthesizer of the first channel of the transmission part, and the second channel of the transmission part contains a HF modulator of the second channel of the transmission part, an expansion sequence modulator of the second channel of the transmission part, a synthesizer frequencies of the second channel of the transmission part, and the output of the data source is connected to the input of the encoder, the output of which is connected to the input of the low-frequency modulator, the output of the low-frequency modulator is connected to the input of the buffer device, the output of which is connected to the input of of the first channel of the transmitting part and the input of the second channel of the transmitting part, the outputs of which are connected to antenna devices, the receiving part contains the first channel of the receiving part, the second channel of the receiving part, a buffer device of the receiving part, a quadrature converter of the receiving part, a decoder of the receiving part, a data receiver, module for evaluating the state of the channel of the receiving part, while the first channel of the receiving part contains a demodulator of the expansion sequence of the first channel of the receiving part, a demodulator of the first channel of the receiving part, a frequency synthesizer of the first channel

From the receiving part, and the second channel of the receiving part contains an expansion sequence demodulator of the second channel of the receiving part, a demodulator of the second channel of the receiving part, a frequency synthesizer of the second channel of the receiving part, and the output of the first channel of the receiving part and the output of the second channel of the receiving part are connected to the input of a buffer device of the receiving part, the output of which is connected to the quadrature converter of the receiving part, the output of which is connected to the input of the decoder of the receiving part and to the first input of the channel state estimation module of the receiving part, the output of which is connected to the second input of the decoder of the receiving part, the output of which is connected to the input of the data receiver and the second input of the channel state evaluation module of the receiving part (2.

Among the disadvantages of the known system with multiple inputs and multiple outputs (MIMO) is low immunity, which endangers the stability of the functioning of the military communication system.

The useful model is based on the task of providing a multi-parameter assessment of the channel state, increasing immunity, and as a result, increasing the stability of the functioning of the military communication system by adding a multi-parameter channel state assessment device to the multi-input and multiple-output (MIMO) system.

The problem is solved by the fact that in a system with multiple inputs and multiple outputs (MIMO) with multi-parameter evaluation, containing a transmitting part, a receiving part, while the transmitting part contains a data source, an encoder, a low-frequency modulator, a buffer device, the first channel of the transmitting part , the second channel of the transmission part, while the first channel of the transmission part contains a high-frequency modulator of the first channel of the transmission part, an expansion sequence modulator of the first channel of the transmission part, a frequency synthesizer of the first channel of the transmission part, and the second channel of the transmission part contains a high-frequency modulator of the second channel of the transmission part, a modulator expansion sequence of the second channel of the transmission part, the frequency synthesizer of the second channel of the transmission part, and the output of the data source is connected to the input of the encoder, the output of which is connected to the input of the low-frequency modulator, the output of the low-frequency modulator is connected to the input of fer device, the output of which is connected to the input of the first channel of the transmitting part and the input of the second channel of the transmitting part, the outputs of which are connected to antenna devices, the receiving part contains the first channel of the receiving part, the second channel of the receiving part, a buffer device of the receiving part, a converter quadrature of the receiving part, decoder of the receiving part, data receiver, evaluation module of the state of the channel of the receiving part, while the first channel of the receiving part contains a demodulator of the expansion sequence of the first channel of the receiving part, a demodulator of the first channel of the receiving part, a frequency synthesizer of the first channel of the receiving part, and the second channel of the receiving part part contains a demodulator of the expansion sequence of the second channel of the receiving part, a demodulator of the second channel of the receiving part, a frequency synthesizer of the second channel of the receiving part, and the output of the first channel of the receiving part and the output of the second channel of the receiving part with are connected to the input of the buffer device of the receiving part, the output of which is connected to the quadrature converter of the receiving part, the output of which is connected to the input of the decoder of the receiving part and to the first input of the channel state evaluation module of the receiving part, the output of which is connected to the second input of the decoder of the receiving part, the output of which is connected to the input of the data receiver and the second input of the channel state evaluation module of the receiving part, according to the useful model, the system additionally includes a device for multi-parameter evaluation of the state of the channel of the first channel of the receiving part, a device for multi-parameter evaluation of the state of the channel of the second channel of the receiving part, and the device for multi-parameter evaluation of the state of the channel of the first channel of the receiving part is located in the first channel of the receiving part and is connected to the input of the frequency synthesizer of the first channel of the receiving part, the device for multi-parameter evaluation of the state of the channel of the second channel of the receiving part is located in the second channel of the receiving part tine and connected to the input of the frequency synthesizer of the second channel of the receiving part, while the inputs of the first channel of the receiving part and the second channel of the receiving part are connected to antenna devices.

The essence of the useful model is explained by the drawing, where the functional scheme of the proposed system is presented.

The system with multiple inputs and multiple outputs (MIMO) with multi-parameter evaluation structurally contains (see drawing) the transmitting part 1, the receiving part 2, the first channel of the transmitting part C, the second channel of the transmitting part 4, the first channel of the receiving part 5, the second channel of the receiving part b, data source 7, encoder 8, NR modulator 9, buffer device 10, HF modulator of the first channel of the transmission part 11, modulator of the expansion sequence of the first channel of the transmission part 12, frequency synthesizer of the first channel of the transmission part 13, HF modulator of the second channel of the transmission part 14, modulator of the expanding sequence of the second channel of the transmitting part 15, frequency synthesizer of the second channel of the transmitting part 16, demodulator of the expanding sequence of the first channel of the receiving part 17, demodulator of the first channel of the receiving part 18, synthesizer of frequencies of the first channel of the receiving part 19, a device for multiparameter assessment of the condition of the channel first channel of the receiving part 20, demodulator of the expansion sequence of the second channel of the receiving part 21, demodulator of the second channel of the receiving part 22, frequency synthesizer of the second channel of the receiving part 23, device for multiparameter evaluation of the state of the channel of the second channel of the receiving part 24, buffer device of the receiving part 25, quadrature converter of the receiving part 26, the decoder of the receiving part 27, the data receiver 28, the evaluation module of the state of the channel of the receiving part 29.

First, let's consider the design of the proposed system.

Transmission part: - the data source 7 located in the transmission part is connected in series with the encoder 8, which is connected in series with the low-frequency modulator (LF) 9. The output of the LF modulator 9 is connected in series with the buffer device 10; - the output of the buffer device 10 is divided into two parts, which are connected to the high-frequency (HF) modulator of the first channel of the transmission part 11 and to the HF modulator of the second channel of the transmission part 14;

Further, structurally, the transmission part of the system with multiple inputs and multiple outputs (MIMO) with multi-parameter evaluation is divided into two channels of the same type, which are identical in terms of functional purpose and constructive execution.

The first channel of the transmission part consists as follows: - the input of the HF modulator of the first channel of the transmission part 11, connected to the output of the frequency synthesizer of the first channel of the transmission part 13 and the modulator of the expansion sequence of the first channel of the transmission part 12; the outputs of the frequency synthesizer of the first channel of the transmission part 13 and the HF modulator of the first channel of the transmission part 11 are connected to the input of the modulator of the expansion sequence of the first channel of the transmission part 12.

The second channel of the transmission part of the system with multiple inputs and multiple outputs (MIMO) with multi-parameter evaluation is made as follows: - the input of the HF modulator of the second channel of the transmission part 14, connected to the output of the frequency synthesizer of the second channel of the transmission part 16 and the modulator of the expansion sequence of the second channel of the transmission part part 16; - the outputs of the frequency synthesizer of the second channel of the transmission part 16 are connected to the input of the expansion sequence modulator of the second channel of the transmission part 15.

The receiving part of the system with multiple inputs and multiple outputs (MIMO) with multi-parameter estimation is structurally composed of two channels. The first channel of the receiving part of the system with multiple inputs and multiple outputs (MIMO) with multi-parameter evaluation is structurally designed as follows: - the output of the demodulator of the expansion sequence of the first channel of the receiving part 17 is connected in series with the input of the demodulator of the first channel of the receiving part 18; the output of the frequency synthesizer of the first channel of the receiving part 19 is connected to the input of the demodulator of the first channel of the receiving part 18, and the second output of the frequency synthesizer of the first channel of the receiving part 19 is connected to the input of the demodulator of the expansion sequence of the first channel of the receiving part 18; the input of the frequency synthesizer of the first channel of the receiving part 19 receives the output of the device for multiparameter assessment of the state of the channel of the first channel of the receiving part 20.

The structure and functional purpose of the second channel of the receiving part are similar to the first channel of the receiving part. The structure of the second channel of the receiving part is as follows: - the output of the demodulator of the expanding sequence of the second channel of the receiving part 21 is connected in series with the input of the demodulator of the second channel of the receiving part 22; the output of the frequency synthesizer of the second channel of the receiving part 23 is connected to the input of the demodulator of the second channel of the receiving part 22, and the second output of the frequency synthesizer of the second channel of the receiving part 23 is connected to the input of the demodulator of the expansion sequence of the second channel of the receiving part 21; to the input of the second frequency synthesizer

From the channel of the receiving part 23 comes the output of the device for multi-parameter assessment of the state of the channel of the second channel of the receiving part 24.

The outputs of the demodulator of the first channel of the receiving part 18 and the demodulator of the second channel of the receiving part 22 enter the input of the buffer device of the receiving part 25; the output of the buffer device of the receiving part 25 is connected in series with the input of the quadrature converter of the receiving part 26. The first output of the quadrature converter of the receiving part 26 is connected to the input of the decoder of the receiving part 27, and the second output is connected to the input of the channel state evaluation module of the receiving part 29 The outputs of the quadrature converter of the receiving part 26 and the decoder of the receiving part 27 are received at the input of the channel state evaluation module of the receiving part 29; the output of the channel status evaluation module of the receiving part 29 is connected to the input of the decoder of the receiving part 27.

The first output of the decoder of the receiving part 27 is connected to the channel state evaluation module of the receiving part 29, and the second output to the data receiver 28.

A multiple-input-multiple-output (MIMO) system with multiparameter estimation works as follows.

To transmit information from the transmission part 1, the data source 7 is sent to the encoder 8, where the sequence of output symbols of the message ЦИ) is converted into a sequence of symbols M(s), which determine the law of formation of the primary low-frequency oscillations 5(I) by the LF modulator 9 for further processing. Next, the signal from the output of the LF modulator 9 enters the input of the buffer device 10. The function of the buffer device is that it accumulates the information coming from the LF modulator 9 and when the amount of information becomes sufficient for transmission, it transmits the information to the input of the HF modulator of the first channel of the transmission part 11 and to the input of the HF modulator of the second channel of the transmission part 14 for further processing. From the output of the buffer device 10, the transmission part is logically and constructively divided into the first channel of the transmission part C and the second channel of the transmission part 4. The first channel of the transmission part C and the second channel of the transmission part 4 have the same functional purpose and the same design.

The input of the HF modulator of the first channel of the transmission part 11 receives an information sequence from the output of the frequency synthesizer of the first channel of the transmission part 13, which performs the function of forming a grid of highly stable reference frequencies. The input of the expansion sequence modulator of the first channel of the transmission part 12 receives the information sequence formed in the HF modulator of the first channel of the transmission part 11 and the information sequence from the frequency synthesizer of the first channel of the transmission part 13. On the expansion sequence modulator of the first channel of the transmission part 12, multiplexing (multiplication) of information sequences formed in the HF modulator of the first channel of the transmission part 11 and the frequency synthesizer of the first channel of the transmission part 13 with subsequent transmission over the radio channel.

The second channel of the transmission part 4 works as follows.

The input of the HF modulator of the second channel of the transmission part 14 receives an information sequence from the output of the frequency synthesizer of the second channel of the transmission part 16, which performs the function of forming a grid of highly stable reference frequencies. The input of the expansion sequence modulator of the second channel of the transmission part 15 receives the information sequence formed in the HF modulator of the second channel of the transmission part 14 and the information sequence from the frequency synthesizer of the second channel of the transmission part 16. On the expansion sequence modulator of the second channel of the transmission part 15, multiplexing (multiplication) of information sequences formed in the HF modulator of the second channel of the transmission part 14 and the frequency synthesizer of the second channel of the transmission part 16 with subsequent transmission over the radio channel.

The information sequence from the output of the modulator of the expansion sequence of the first channel of the transmission part 12 and the expansion sequence of the second channel of the transmission part 15 are received by the antenna device. Antenna devices emit an information sequence through a radio channel to the receiving side of the system.

The signal transmitted by the transmitting part of the system reaches the antenna devices of the receiving part of the system, namely the antenna device of the first channel of the receiving part 5 and the antenna device of the second channel 6. On the receiving side of the system, a sequence (series) of reverse transformations of the information sequence is carried out, which were carried out on transmission side of the system. The first channel of the receiving part 5 and the second channel of the receiving part 6 are designed in the same way and functionally have the same purpose.

З The received information sequence from the outputs of the antenna devices is sent to the demodulator of the expansion sequence of the first channel of the receiving part 17 and the demodulator of the expansion sequence of the second channel of the receiving part 21, where the operation of demodulation of the expansion sequence (where multiplexing or decomposition) is carried out by feeding the demodulator of the expansion sequence of the first channel of the receiving part to the input part 17 (the demodulator of the expansion sequence of the second channel of the receiving part 21) and the frequency synthesizer of the first channel of the receiving part 19 (the frequency synthesizer of the second channel of the receiving part 23). An operation where multiplexing is carried out by adding the same information sequences modulo 2 (the sequences formed on the transmitting side are identical to the sequences formed on the receiving side, namely, the expanding sequences of the transmitting side are identical to the expanding sequences of the receiving side).

From the outputs of the demodulator of the expansion sequence of the first channel of the receiving part 17 and the demodulator of the expansion sequence of the second channel of the receiving part 21, the information sequence enters the input of the demodulator of the first channel of the receiving part 18 and the demodulator of the second channel of the receiving part 22. In the demodulator of the first channel of the receiving part 18 and the demodulator of the second channel of the receiving part part 22, when the information and service sequence is received from the output of the frequency synthesizer of the first channel of the receiving part 19 and the frequency synthesizer of the second channel of the receiving part 23, a useful information sequence is selected by correlating the received signal with a sample of the signal, which is set as a standard for reception (detection). The frequency synthesizers of the receiving part 19 and 23 are identical in their structure and functional purpose to the synthesizers of the transmitting part 13 and 16 and on the receiving side perform the function of extracting a useful sequence from the entire sequence received at the receiving part of the system.

The device for multi-parameter evaluation of the state of the channel of the first channel of the receiving part 20 and the device of multi-parameter evaluation of the state of the channel of the second channel of the receiving part 24 are connected to the input of the frequency synthesizer of the first channel of the receiving part 19 and the frequency synthesizer of the second channel of the receiving part 23.

From the output of the demodulator of the first channel of the receiving part 18 and the demodulator of the second channel of the receiving part 23, the signal enters the input of the buffer device of the receiving part 25, which performs the function of accumulating up to a certain level of information coming from the output of the demodulator of the first channel of the receiving part 18 and the demodulator of the second channel of the receiving part 22. After accumulating a certain amount of information necessary for operation, the buffer device of the receiving part 25 transmits the accumulated information to the quadrature converter of the receiving part 26, which is a universal device that is used regardless of the type of modulation but with an additional conversion of the demodulating oscillation. The quadrature converter of the receiving part is a balanced type device that does not require filtering to select the positive or negative component of the signal. From the output of the quadrature converter of the receiving part 26, the signal enters the input of the decoder of the receiving part 27, which performs the function of decoding the information sequence.

The channel state evaluation module of the receiving part 29 is designed to form a generalized assessment of the state of the communication channel. Information to the channel state evaluation module of the receiving part 29 comes from the quadrature converter of the receiving part 26 and the decoder of the receiving part 27. The channel state evaluation module of the receiving part 29 analyzes the information coming from the quadrature converter of the receiving part 26 and the decoder of the receiving part 27 and depending on which of the devices detected an excess of the ratio of the permissible value of the channel state and there is a request for retransmission of the information sequence that was received with distortion. From the output of the decoder of the receiving part 27, information is sent to the data receiver 28.

Increasing the effectiveness of the application of the system with multiple inputs and multiple outputs (MIMO) with multi-parameter evaluation, which is claimed, in comparison with the analogue, is achieved due to the additional introduction of devices for multi-parameter evaluation of the channel state into the channels of the receiving part of the system, which provides multi-parameter evaluation of the channel state, improves immunity , and as a result, to increase the stability of the operation of the military communication system.

Sources of information: 1. 7pumoiosKui, V.M., ZpuzpaivKui, A.M., ReihykK, 5.M (2017). 5igisiigaI-zetapiis tode! oh sottipisayop spappei. 4 Ipivgtpaiopa! /Zsiepiyis-Rgasiisai Sopietepse "Rgtobiet5 oi

Koo) Iptosottipisaiope. Zsiepse apa Tesppoiodu" (RISBZAT-2017). Knaikim, OKgaipe, 524-529. . BOI: 10.1109AMEOSOMM5T.2017.8246454. - analogue. 2. MIMO - technologies: practical application. - (electronic resource. - Access mode:

Ner//ys.Kivm.tsa/apisiye.rpit!?I0-22022 - analog.

Claims (1)

35 UTILITY MODEL FORMULA A multi-input multiple-output (MIMO) system with multi-parameter estimation, comprising a transmitting part, a receiving part, wherein the transmitting part contains a data source, an encoder, a low frequency modulator, a buffer device, a first channel 40 of the transmission part, the second channel of the transmission part, while the first channel of the transmission part contains a high-frequency modulator of the first channel of the transmission part, a spreading sequence modulator of the first channel of the transmission part, a frequency synthesizer of the first channel of the transmission part, and the second channel of the transmission part contains a high-frequency modulator of the second channel of the transmission part parts, modulator 45 expansion sequence of the second channel of the transmission part, the frequency synthesizer of the second channel of the transmission part, and the output of the data source is connected to the input of the encoder, the output of which is connected to the input of the low-frequency modulator, the output of the low-frequency modulator is connected to the input of the buffer device, the output which is connected to the input of the first channel of the transmission part and the input of the second channel of the transmission part, the outputs of which are connected to 50 antenna devices, the receiving part contains the first channel of the receiving part, the second channel of the receiving part, the buffering device of the receiving part, the quadrature converter of the receiving part, the decoder of the receiving part, the data receiver, the module of evaluating the state of the channel of the receiving part, while the first channel of the receiving part contains the demodulator of the expansion sequences of the first channel of the receiving part, 55 demodulator of the first channel of the receiving part, frequency synthesizer of the first channel of the receiving part, and the second channel of the receiving part contains a demodulator of the expansion sequence of the second channel of the receiving part, a demodulator of the second channel of the receiving part, a frequency synthesizer of the second channel of the receiving part, and the output of the first channel of the receiving part and the output of the second of the channel of the receiving part are connected to the input of the buffer device of the receiving part, the output of which is connected to the quadrature converter of the receiving part, the output of which is connected to the input of the decoder of the receiving part and to the first input of the channel state evaluation module of the receiving part, the output of which is connected to the second input of the decoder of the receiving part, the output of which is connected to the input of the data receiver, and the second input of the channel state evaluation module of the receiving part, which is characterized by the fact that the system additionally contains a device for multi-parameter evaluation of the channel state of the first channel of the receiving part, attached swarm of multi-parameter evaluation of the state of the channel of the second channel of the receiving part, and the device of multi-parameter evaluation of the state of the channel of the first channel of the receiving part is located in the first channel of the receiving part and connected to the input of the frequency synthesizer of the first channel of the receiving part, the device of multi-parameter evaluation of the state of the channel of the second channel of the receiving part is placed in the second channel of the receiving part and is connected to the input of the frequency synthesizer of the second channel of the receiving part, while the inputs of the first channel of the receiving part and the second channel of the receiving part are connected to antenna devices. RU mavky 0000002 Ann p I ANYA MM I y y toi hu ka pi yin y ne : Nene ДН ШИ копы НЕ щу ШЕ : Ne NI re N : NEON : : И: Well, keshnya И : RE : with her: : i 7 t I : M. -X : : NN DY t -ya y : NN : : fobnyunniai And I o Te Z 11..:11.1.:.44 : : : on cho N : ; unreadable | Yes. genes y ts OT zhomrovtuu Vo rfnnnnnnnnnnnnnnnnnnnnnnnnninininiyai OK M MK V i : ditch tya, M che : Ya N : ve С N : : : N me d-ny E : E Not ENN shi and OO y