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Method and system for meteorological-radar signal processing

A meteorological radar and signal processing technology, applied in the radio wave measurement system, climate sustainability, radio wave reflection/reradiation, etc., can solve the problems of limited beam width and pulse width resolution, and cannot be improved

Active Publication Date: 2014-03-19
CMA METEOROLOGICAL OBSERVATION CENT
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  • Abstract
  • Description
  • Claims
  • Application Information

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Problems solved by technology

For example, if the main beam of the radar wave of a weather radar has a beamwidth of 3dB and the pulses within the main beam have a pulsewidth of 1ms, the resolution of the azimuth and elevation angles of the target area is limited by this 3dB beamwidth and the distance The resolution is limited by the 1ms pulse width, so it cannot be improved
[0009] Moreover, the existing weather radar signal processing system cannot process the information related to the azimuth angle, elevation angle and distance detected by the weather radar to obtain super-resolution high-precision data. The resolution of the processed data exceeds the resolution of the echo signal limited by beam width and pulse width

Method used

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  • Method and system for meteorological-radar signal processing
  • Method and system for meteorological-radar signal processing
  • Method and system for meteorological-radar signal processing

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no. 1 approach

[0043] The first embodiment of the present invention is as figure 1 Shown is a weather radar signal processing method 100 according to the present invention.

[0044] figure 1The shown weather radar signal processing method 100 includes the following steps: a transmitting step S101, which is used to transmit the main beam of radar waves to the target area through the antenna, the main beam has a predetermined irradiation power, a predetermined beam width, and a predetermined number of pulses , each pulse in the predetermined number of pulses has a predetermined pulse width and predetermined irradiation power; a receiving step S102, which is used to receive an echo from the target area through the antenna; and an echo processing step S103, It is used to process the echo to obtain a weather radar signal including the echo power of the echo and information related to the azimuth, elevation and distance of the target area, wherein the main The beam is equally divided into n su...

no. 2 approach

[0048] The second embodiment is a weather radar signal processing method for azimuth on the basis of the first embodiment.

[0049] 2.1 Convolution and deconvolution of weather radar antenna azimuth scanning

[0050] For the convenience of discussion, the main beam of the radar wave of the weather radar and the target area of ​​observation are discretized first. The beam width of the main beam is equally divided into n sub-beams according to the azimuth angle, where n is an integer greater than or equal to 2. Preferably, n is the number of pulses in the main beam. The beamwidth of the main beam can be set as required, for example, it can be set as 2.8dB beamwidth, 2.9dB beamwidth, 3dB beamwidth, etc. The beam width of each sub-beam is equal to 1 / n of the beam width of the main beam, and the irradiation power of each sub-beam is respectively named h according to the direction (for example, clockwise direction) 1 、h 2 、h 3 . . . h n .

[0051] In the case where the mai...

no. 3 approach

[0132] The third embodiment is a weather radar signal processing method for elevation angle based on the first embodiment.

[0133] In the third embodiment of the present invention, except that the beam width of the main beam is equally divided into q sub-beams according to the elevation angle (wherein, q is an integer greater than or equal to 2), the third embodiment of the present invention and the second embodiment the same way.

[0134] In the weather radar signal processing method for performing deconvolution processing on the observed value (partial convolution) of the weather radar signal according to the third embodiment of the present invention, linear estimation, extrapolation search and / or cyclic recursion algorithms are used to realize Deconvolution function. Therefore, the beam width can be compressed to 1 / q (q is the number of sub-beams or the number of pulses in the beam) according to the elevation angle. Specifically, the weather radar signal processing metho...

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Abstract

The invention provides a method and system for meteorological-radar signal processing. The method for the meteorological-radar signal processing includes the following steps: an emission step used for emitting main wave beams of radar waves to a target area through an antenna, wherein the main wave beams have a preset irradiation power, a preset wave-beam width and pulses of a preset number and each pulse has a preset pulse width and a preset irradiation power; a receiving step used for receiving return waves from the target area through an antenna; and a return-wave processing step used for processing the return waves so as to obtain a meteorological-radar signal which includes the return-wave power of the return waves and information related with the azimuth, pitch angle and distance of the target area, wherein the main wave beams are divided equally into n sub wave beams according to the angle of the azimuth and / or the main wave beams are divided equally into q sub wave beams according to the angle of the pitch angle and / or each pulse is divided equally into m sub pulses according to the pulse width so as to explore the target area so that the meteorological-radar signal of super resolution is obtained.

Description

technical field [0001] The invention relates to the field of weather radar, in particular to a method and system for processing weather radar signals. Background technique [0002] Meteorological radar is a radar device used to detect the type of precipitation (rain, snow, hail, etc.), distribution, movement and evolution in the atmosphere, and to predict its future distribution and intensity. In recent years, with the change of climate and environment, especially the increase of disastrous weather, the application of weather radar has become more and more important. [0003] Figure 15 A schematic diagram of the weather radar detection target area is shown. [0004] Such as Figure 15 As shown, in weather radar applications, the position of any target in space can be determined by the following three coordinates: [0005] (1) Distance R: the straight-line distance OP from the radar to the target; [0006] (2) Azimuth α: the angle between the projection OB of the distance...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G01S13/95G01S7/292
CPCG01S7/282G01S7/2923G01S13/95Y02A90/10
Inventor 李柏陈大任高玉春李喆王崇文
Owner CMA METEOROLOGICAL OBSERVATION CENT
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