A high-precision ranging method and system for a dual-beam microwave landing radar
A technology of microwave landing and ranging method, which is applied in the direction of radio wave measurement system, measuring device, radio wave reflection/reradiation, etc., to achieve the effect of improving ranging accuracy, eliminating inconsistency of path attenuation, and broad application prospects
Active Publication Date: 2021-12-07
XIAN INSTITUE OF SPACE RADIO TECH
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[0006] According to the research on the published domestic and foreign microwave landing radar related data, the high-precision ranging method is mainly obtained by improving the beam center calculation algorithm, which fundamentally cannot avoid the inconsistency of the echo power distance path attenuation of each resolution unit in the beam and the strong dispersion. Estimation of Asymmetric Center of Echo Envelope Caused by Scattering Points
There is no public information showing a method for estimating the angle of incidence of the beam
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[0037] Further illustrate working principle and working process of the present invention below in conjunction with accompanying drawing:
[0038] Such as figure 1 As shown, microwave landing radar is composed of signal processor, transmitter, receiver and antenna. After the radar is powered on, it starts to receive external input control signals and starts to work. The signal processor generates the required radar transmission waveform signal. The transmission signal is up-converted to radio frequency by the transmitter and amplified and transmitted from the antenna through the transceiver switch. After the echo signal is received by the receiving antenna, it is fed into the receiver through the transceiver switch for amplification, filtering, and down-conversion, and then sent to the signal processor for analog-to-digital conversion, and the distance beam center is calculated to obtain the target distance measurement.
[0039] The specific technical implementation steps of ...
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A high-precision ranging method and system for a dual-beam microwave landing radar, the steps of which are: simultaneously obtain the echoes of the landing beam irradiation area through the two beams of the antenna convex beam and the antenna concave beam; Calculate the envelope ratio of the concave beam echo; calculate the minimum value point position of the echo envelope ratio notch to obtain high-precision measurement of the beam distance; calculate the distance ratio of two distance points with the echo envelope ratio being 1 , look up the table to obtain the estimation of the incident angle of the beam center. The present invention obtains the echo of the landing beam irradiation area by configuring the convex and concave dual beams to measure the distance, and eliminates the inconsistency of the echo power distance path attenuation of each resolution unit in the beam and the asymmetric center estimation of the echo envelope caused by the existence of discrete strong scattering points The problem is that while improving the ranging accuracy, the estimated value of the incident angle of the beam center can be obtained. As an important parameter for safe landing, this technology has been applied to the design and application of the microwave landing radar system for the fourth phase of lunar exploration.
Description
technical field [0001] The invention relates to a high-precision ranging method and system for a double-beam microwave landing radar, which belongs to the field of microwave landing radar in deep space. Background technique [0002] The microwave landing radar is one of the important loads of the navigation, guidance and control (GNC) subsystem of the deep space landing probe. It provides the GNC subsystem with information such as the distance, speed and beam incident angle of the probe relative to the lunar surface during the landing and descent section to ensure landing. precision and safety. How to design a radar system to achieve high-precision calculation of the beam center and the estimation of the incident angle of the beam center is a key link in system design. The incident angle parameter is an important parameter for estimating the terrain inclination in the landing area, and it is of great significance for the judgment of landing safety. [0003] The project ori...
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IPC IPC(8): G01S13/08G01S7/41
CPCG01S7/41G01S13/08
Inventor 贺亚鹏党红杏张爱军刘瑞冬解虎郑适
Owner XIAN INSTITUE OF SPACE RADIO TECH
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