RU2015115230A - Radio-acoustic system of parametric reception of waves of sources and phenomena of the atmosphere, ocean and the earth's crust in the marine environment - Google Patents

Abstract

1. A radio-acoustic system for the parametric reception of waves of sources and phenomena of the atmosphere, ocean and the earth's crust in the marine environment, which includes emitting radiation and at least three receiving acoustic transducers installed at the opposite boundaries of the controlled environment, the three zones of nonlinear interaction of the transmission and information waves formed between them as translucent parametric antennas, as well as connected to the radiating and receiving transducers, respectively, the radiating path, which includes I have connected in series blocks of a stabilized frequency signal generator in the frequency range of tens to hundreds of hertz, a signal power amplifier and an acoustic transducer as an emitter of medium illumination signals, and also a path for receiving nonlinearly transformed luminous waves, which includes series-connected blocks of a three-channel strip amplifier of luminous signals, a time-frequency converter in the high-frequency region, a narrow-band spectrum analyzer, a function meter signal correlation between the middle and outer receiving converters, then the block for separating the functions of their mutual correlation and the signal recorder, characterized in that the working area of nonlinear interaction and parametric conversion of the luminal and information waves is formed in the vertical plane of the medium as a multi-beam spatially developed luminous parametric antenna, which uses three omnidirectional radiating transducers vertically located in the center of the water area and

Claims (4)

1. A radio-acoustic system for the parametric reception of waves of sources and phenomena of the atmosphere, ocean and the earth's crust in the marine environment, which includes emitting radiation and at least three receiving acoustic transducers installed at the opposite boundaries of the controlled environment, the three zones of nonlinear interaction of the transmission and information waves formed between them as translucent parametric antennas, as well as connected to the radiating and receiving transducers, respectively, the radiating path, which includes I have connected in series blocks of a stabilized frequency signal generator in the frequency range of tens to hundreds of hertz, a signal power amplifier and an acoustic transducer as an emitter of medium illumination signals, and also a path for receiving nonlinearly transformed luminous waves, which includes series-connected blocks of a three-channel strip amplifier of luminous signals, a time-frequency converter in the high-frequency region, a narrow-band spectrum analyzer, a function meter signal correlation between the middle and outer receiving converters, then the block for separating the functions of their mutual correlation and the signal recorder, characterized in that the working area of nonlinear interaction and parametric conversion of the luminal and information waves is formed in the vertical plane of the medium as a multi-beam spatially developed luminous parametric antenna, which uses three omnidirectional radiating transducers, vertically located in the center of the water area and installed x on the axis, below and above the axis of the underwater sound channel (CCD), and the receiving transducers are combined into three identical blocks located in a vertical plane along isosceles triangles, which are installed relative to the CCD axis, similar to radiating blocks and placed around and (or) the perimeter on the opposite border of the water area; the receiving path of the measuring system is formed as a multi-channel and includes one channel (line) of spectral analysis for extracting information signals, containing series-connected blocks of a strip amplifier, a converter of the time scale of the received signals in the high-frequency region, a narrow-band spectrum analyzer and a functionally connected recorder (recorder ); in this case, the single hydrophones of each receiving unit via cables through the channel switching unit are connected to three lines of the correlation and mutual measuring system, and the outputs of the channels (lines) of the spectral and correlation analysis of the analysis of the received transparent signals are connected to the input of the analysis unit of the extracted complex information, the output of which is through the radio block connected to the information and analytical center of the monitoring system, containing a series-connected receiving radio unit, a system analysis unit and a transmitting radio unit, the output of which is connected via a radio channel to the signal conditioning unit of the transmitting path of the monitoring system. 2. The radio-acoustic system according to claim 1, characterized in that the multichannel luminous parametric system is formed as a complex of vertical multipath parametric antennas located at a circle or perimeter of a controlled area through 45 ° and oriented radially from the emitting center to the periphery, which ensures the formation of a common spatial developed parametric monitoring system. 3. The radio-acoustic system according to claim 1, characterized in that the distance between the acoustic transducers of the receiving units located in a vertical plane is set in accordance with the correlation characteristics of the vertical structure of the translucent acoustic field. 4. Radio-acoustic system according to claim 1, characterized in that the large-scale translucent radio-acoustic system can be scaled (scaled up) by combining the measured information from similar monitoring subsystems formed in adjacent water areas in an information-analytical center using radio communication channels.