基于混沌激光测距系统计算模型的深度图重建  被引量：1

作　　者：蒋博文 岳涛 胡雪梅 JIANG Bowen;YUE Tao;HU Xuemei(School of Electronic Science and Engineering,Nanjing University,Nanjing 210023,China)

机构地区：[1]南京大学电子科学与工程学院,南京210033

出　　处：《光子学报》2022年第6期1-18,共18页Acta Photonica Sinica

基　　金：国家自然科学基金(No.61971465)。

摘　　要：基于物理过程提出了一个针对混沌激光测距系统的仿真计算模型。该计算模型相对全面地考虑了引起混沌信号退化并造成测距误差的各种因素,包括大气衰减、大气湍流、几何衰减、被测物体的表面法线信息及其双向反射分布函数、多径噪声、环境光噪声、系统热噪声和光电二极管的退化模型等。为了重点探索双向反射分布函数、环境光噪声、多径噪声对基于混沌信号的深度图重建精度的影响,进一步通过将一维离散混沌序列作为探测信号,基于互相关法对合成的深度图进行扫描测距和深度图重建。实验结果表明,本文研究的混沌激光仿真测距系统的深度图重建质量受双向反射分布函数中粗糙度系数的影响并不十分明显,但当粗糙度逐渐增大时,漫反射成分也逐渐增大,此时多径噪声的影响将逐渐显现。此外,该系统能够在一定的环境光噪声强度范围内表现出对环境光噪声较强的鲁棒性,但即使在多径噪声较弱时,其深度图重建质量也会随多径噪声以较快的速率衰减,当多径噪声增强到一定程度时衰减速率才趋于平缓。本文能为实现实际的混沌激光深度图重建系统以及针对影响重建质量的退化因素分析提供参考和依据,并有助于快速高效地构建出基于物理过程且接近于实测环境的混沌激光深度图探测结果数据集。Radar is a sensor that uses electromagnetic waves for detection and ranging.The Light Radar(LIDAR)has been widely applied in many fields,such as robotics,ocean detection,atmospheric detection,intelligent driving,etc.Recently,LIDAR,based on the aperiodic random signal,has aroused great attention.The chaotic signal is one of the various aperiodic random signals,and the LIDAR systems taking the chaotic signal as the detection signal are named chaotic laser ranging systems.Considerable simulation and experimental results have illustrated that this kind of LIDAR system can perform attractive qualities,such as anti-jamming properties,high precision(mm-level),and multi-target real-time ranging ability.Nevertheless,up to now,existing work has not proposed a simulation model based on a realistic physical processes for chaotic laser ranging systems yet;also,there is no work that quantitatively analyzes the main degradation factors affecting the accuracy of chaotic laser ranging systems and the quality of reconstructed depth maps.In order to solve the problems above,a computational model based on the physical process for chaotic laser ranging systems is proposed in this paper.The computational model comprehensively considers various factors which will possibly cause chaotic signal degradation and ranging error during the realistic ranging process,including atmospheric attenuation,atmospheric turbulence,geometric attenuation,surface information of the object and its Bidirectional Reflection Distribution Function(BRDF),multipath noise,ambient noise,thermal noise and the degradation model of photodiodes.The program of the computational model is implemented with MATLAB.Among various degradation factors,there are three factors that require special awareness which namely BRDF,ambient noise,and multipath noise.In order to explore the influence of these three degradation factors on the accuracy of depth map reconstruction,this paper further uses the discrete chaotic sequence generated from the simulated Chua's chaotic circuit as th

关 键 词：混沌信号 激光测距 计算模型 双向反射分布函数 环境光噪声 多径噪声 

分 类 号：O439[机械工程—光学工程]