极小盲区双视场沙氏激光雷达研究  被引量：2

作　　者：陈和[1] 徐清玥 郭磐[1] 陈思颖[1] 郝伟 胡芮 李鑫 Chen He;Xu Qingyue;Guo Pan;Chen Siying;Hao Wei;Hu Rui;Li Xin(School of Optics and Photonics,Beijing Institute of Technology,Beijing 100081,China;Academy of Medical Sciences,Academy of Military Sciences,Beijing 100071,China)

机构地区：[1]北京理工大学光电学院,北京100081 [2]中国人民解放军军事科学院军事医学研究院,北京100071

出　　处：《光学学报》2023年第24期323-332,共10页Acta Optica Sinica

基　　金：国家自然科学基金(42005137)。

摘　　要：沙氏激光雷达是一种可实现近距离高分辨率探测的系统,而室内气溶胶的扩散研究对其探测范围提出了严苛的要求。以沙氏激光雷达技术为基础,提出对远场和近场的气溶胶后向散射信号进行同时探测的双视场技术方案。该方案通过融合双视场的信号获取极小盲区的全路径信号廓线。在室内环境下,利用人工施放的气溶胶对所研制的双视场沙氏激光雷达系统进行了测试实验。实验中,在路径末端7.1 m处设置硬靶,提供边界值标定,从而反演得到气溶胶消光系数。实验结果表明:相比单视场探测系统,双视场探测系统的盲区由1.26 m缩小到0.36 m;同时,系统距离分辨率在最近处为0.1 mm,在最远处为15 mm;通过对两个视场信号的定标融合,全距离范围内气溶胶反演结果具有较好的时空连续性。Objective Indoor aerosols are known to have a significant influence on atmospheric environment and human health.Therefore,it is meaningful to study the physical processes and movement patterns of them,such as transport,diffusion,and deposition.Although numerical simulations can provide strong support for the analysis of indoor aerosol flow field,it remains challenging to quantify the random factors in real environments.Thus,further research is needed through experimental measurements.Conventional measurement methods,such as high-speed photography and pulsed lidar,are difficult to meet the range and resolution requirements for indoor aerosol research due to their inherent limitations.The Scheimpflug lidar,a type of lidar technology based on the Scheimpflug principle,has the potential to provide high-resolution detection at short range.However,the dead zone of a single field-of-view(FOV)Scheimpflug lidar still occupies a large proportion,hindering accurate studies of indoor aerosol distribution and diffusion patterns.Therefore,we propose a dual-FOV Scheimpflug lidar.Methods The proposed dual-FOV Scheimpflug lidar emits a continuous laser beam that interacts with the aerosol particles and produces elastic scattering.The backscattering signals from different ranges are collected respectively by two FOVs and then simultaneously captured by the corresponding image sensors(Fig.1).In our study,a dual-FOV Scheimpflug lidar is developed with a 520 nm laser diode as the laser source.The lens for the primary FOV has a focal length of 100 mm and is designed to receive aerosol scattering signals from the far range,while the secondary FOV lens with a focal length of 45 mm is adopted to receive near-range signals.Two identical CMOS cameras serve as detectors for each FOV.In an indoor environment,we experiment to test the performance of the dual-FOV Scheimpflug lidar system(Fig.3),with the artificially released aerosol source placed at 4.5 m.As the aerosol concentration along the path changes during the experiment,the signal inte

关 键 词：遥感 沙氏激光雷达 双视场 气溶胶探测 盲区 

分 类 号：TN958.98[电子电信—信号与信息处理]