Laser radar of double-wavelength for adaptive range gate

A dual-wavelength laser and laser radar technology, which is applied in the directions of distance measurement, line-of-sight measurement, electromagnetic wave re-radiation, etc., can solve the problems of increased difficulty in noise suppression, low work efficiency, and reduced distance gate technology advantages, etc., to achieve reduction Effects of backscattering, improving work efficiency, improving point cloud accuracy and object recognition and classification capabilities

Pending Publication Date: 2019-03-29
SOUTH WEST INST OF TECHN PHYSICS
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Problems solved by technology

[0002] In the detection process of targets under the jungle, occluded targets, underwater targets, etc., the echo signal is very weak, the sensitivity of the linear detector is low, and only the unit or small area array can be used for detection, and the work efficiency is low; generally, high-sensitivity single photon is used Area array detectors have high data acquisition efficiency and high ground resolution, but the high sensitivity makes noise suppression more difficult, and is easy to be triggered by noise to generate false alarms; single-photon detectors have a dead time and require multi-pulse cumulative detection
In this way, the range-gated laser imaging technology is introduced to suppress backscattering and background noise, and improve the target signal-to-noise ratio. Generally, the range gate switch is fixed. For dynamically changing targets or the laser radar

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  • Laser radar of double-wavelength for adaptive range gate
  • Laser radar of double-wavelength for adaptive range gate

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[0017] In order to make the purpose, content, and advantages of the present invention clearer, the specific implementation manners of the present invention will be further described in detail below in conjunction with the accompanying drawings and embodiments.

[0018] like figure 1 and figure 2 As shown, the dual-wavelength adaptive range-gate laser radar of the present invention includes a dual-wavelength laser light source 1, an optical delay device 2, a transceiver optical system 3, a beam splitter 4, a linear detector 5, a dual-mode signal processing module 6, a gating Circuit 7, single-photon area array detector 8, three-dimensional image processing module 9; dual-wavelength laser light source 1 emits dual-wavelength laser, one of which is fundamental frequency light λ 1 , as a gated switch light source, and the other is frequency-doubled light λ 2 , as a single-photon area array high-resolution imaging light source; frequency-doubled light λ 2 After optical delayer ...

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Abstract

The invention discloses laser radar of double-wavelength for an adaptive range gate. The laser radar comprises a laser source (1) of double-wavelength, an optical delay (2), a transceiver optical system (3), a beam splitter (4), a linear detector (5), a double -mode signal processing module (6), and gating circuit (7), single photon surface array detector (8), and three-dimensional image processing module (9). According to the laser radar of double-wavelength for an adaptive range gate, the effects of dual modes of linear detection and single photon detection are mutually complementary. Targetdistance information is rapidly acquired by the linear detection as an opening signal of the real-time adaptive range gate of the single photon surface array detector, and the range gate changes withthe target, so that the influence of backward scattering and background noise is reduced, and the efficiency of the single photon surface array detection and the working efficiency of the radar system are improved. The double-wavelength data is fused so as to improve point cloud precision and target identification and classification capability.

Description

technical field [0001] The invention belongs to the technical field of photoelectric imaging, and relates to a dual-wavelength self-adaptive range gate laser radar. Background technique [0002] In the detection process of targets under the jungle, occluded targets, underwater targets, etc., the echo signal is very weak, the sensitivity of the linear detector is low, and only the unit or small area array can be used for detection, and the work efficiency is low; generally, high-sensitivity single photon is used Area array detectors have high data acquisition efficiency and high ground resolution, but the high sensitivity makes noise suppression more difficult, and it is easy to be triggered by noise to generate false alarms; single-photon detectors have a dead time and require multi-pulse cumulative detection. In this way, the range-gated laser imaging technology is introduced to suppress backscattering and background noise, and improve the target signal-to-noise ratio. Gene...

Claims

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Application Information

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IPC IPC(8): G01S17/48G01S17/89G01S7/483
CPCG01S17/48G01S7/483G01S17/89
Inventor 石振东高建波宋昭张志坚毛一江冷杰姜勇杨镇源贾凯徐诗月
Owner SOUTH WEST INST OF TECHN PHYSICS
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