Method for measuring aerosol parameters by lateral laser radar based on CCD (charge-coupled device) imaging technology

A lateral lidar and lidar technology, which is used in the field of lateral lidar measurement of aerosol parameters, can solve the problem of failing to effectively explore the lateral lidar inversion method.

Inactive Publication Date: 2013-10-09
中国人民解放军陆军军官学院
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Problems solved by technology

Although it solves the problem of how to accurately determine the corresponding relationship between pixels in

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  • Method for measuring aerosol parameters by lateral laser radar based on CCD (charge-coupled device) imaging technology
  • Method for measuring aerosol parameters by lateral laser radar based on CCD (charge-coupled device) imaging technology
  • Method for measuring aerosol parameters by lateral laser radar based on CCD (charge-coupled device) imaging technology

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Embodiment Construction

[0047] see figure 1 , figure 2 and image 3 , the method of measuring aerosol parameters based on CCD imaging technology side lidar is as follows:

[0048] first,

[0049] To calibrate the CCD camera, it is specifically to first make the optical axis 1 of the CCD camera perpendicular to the plane of the calibration table 2, and then use the CCD camera 3 to obtain the CCD image of the calibration table 2; wherein, the opening angle 6 of the CCD camera 3 is 90 (can be 60~120) degrees, the vertical distance between it and the calibration table 2 is 5 (can be 5~10) m, the calibration table 2 is a single-line table, and the table in the single-line table is black and white with a side length of 1cm square form. Then calculate the deflection angle θ and angular width dθ of each pixel from the number of the table in the CCD image of the calibration table 2 and the number of the pixel in the same dimension as the increment of the table number in the table.

[0050] Secondly,

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Abstract

The invention discloses a method for measuring aerosol parameters by a lateral laser radar based on a CCD (charge-coupled device) imaging technology. The method comprises the following steps of: firstly, selecting a phase-comparison function value of aerosol to atmospheric molecules of a reference point in a horizontal direction; determining and affirming that a backscatter coefficient value of the aerosol on the reference point is equal to that at each scattering angle; inserting the drift angle (theta) and the angle width (dtheta) with each pixel of a CCD camera, and the vertical distance (D) between the CCD camera (3) and a beam (5) emitted by the laser radar into a lateral laser radar equation shown in the description; taking the adjacent point as a new reference point after solving the phase-comparison function of the aerosol on the adjacent point from the value, gradually solving until a profile of the phase-comparison function of the aerosol is obtained; then affirming that the obtained phase-comparison function value of the aerosol in the horizontal direction is equal to that in the vertical direction, measuring the backscatter coefficient value of the aerosol at one height as the reference point, and obtaining the profile of the backscatter coefficient value of the aerosol by adopting the method. Therefore, the aerosol parameters conforming to the actual condition can be measured.

Description

technical field [0001] The invention relates to a method for measuring aerosol parameters by laser radar, in particular to a method for measuring aerosol parameters by lateral laser radar based on CCD imaging technology. Background technique [0002] CCD imaging lateral lidar is a new technology being researched internationally. It places the transmitting device and the receiving device in two places, and uses the signal strength of different pixels in the CCD camera to record the lateral position at different distances on the emitted beam. Scattered light intensity. The vertical distance from the CCD camera to the emitted beam is generally 5-200m, and the opening angle of the CCD camera can reach 90 degrees. In this way, the beam range that the CCD camera can detect can be from 0 to 5km. [0003] This principle and device are different from ordinary lidar - backscatter lidar. Ordinary lidar receives backscattered light, while CCD imaging lateral lidar receives side scatt...

Claims

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Application Information

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IPC IPC(8): G01N21/49
Inventor 陶宗明麻晓敏陈向春张清泽陈宇储德林
Owner 中国人民解放军陆军军官学院
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