摘要
在基于双目视觉的三维轨迹测量中,双目同名点的高精度匹配是提高测量精度的关键。在狭长空间的近距离测量场景下,针对双目拍摄角度不同导致仅用形心法定位匹配的轨迹测量精度不高的问题,研制了一种形心匹配优化下的狭长空间近距离轨迹测量系统。首先,在仅用形心法对目标物体定位匹配的基础上利用极线约束投影进行双目形心的二次定位;其次,提出了一种基于距离和方法权重的灰度互相关方法进行双目形心的亚像素匹配;最后,通过卡尔曼滤波对于目标物体的三维重建运动轨迹进行滤波修正。实验结果表明:该轨迹测量系统通过对多方法组合优化,显著提高了狭长空间近距离条件下的轨迹测量精度,在128 mm的全量程测量范围内对纹理较好目标物体的平均轨迹长度测量误差为13.14μm,测量精度约为0.01%,相比于仅用形心法定位匹配,轨迹长度测量精度提高了94.3%。
Objective Three-dimensional trajectory measurement is a key technology involved in intelligent monitoring,motion analysis and target tracking,which has been widely used in transportation,military and other fields.In recent years,with the rapid development of computer vision technology,imaging equipment and computers are used to replace human eyes and brains to measure the three-dimensional trajectory of target objects with high accuracy.Monocular vision mostly estimates the depth distance of the target in the three-dimensional coordinate system through the proportion of pixel area changes.When the target object rotates and deforms,the depth estimation results are greatly affected.However,binocular vision based on 3D reconstruction mathematical model and polar constraint has the advantages of reliable calculation results and relatively high measurement accuracy in 3D trajectory measurement of flying objects.In the three-dimensional trajectory measurement based on binocular vision,the high-precision matching of binocular homonymous points is the key to improve the measurement accuracy.Especially in the narrow and long space near distance measurement scene for aeroengine safety monitoring,because the binocular camera shoots the target object from different angles,especially when the included angle of the optical axis of the binocular camera is large,the trajectory measurement accuracy of only centroid positioning matching is not high.In order to solve the above problems,a near distance trajectory measurement system in narrow and long space based on centroid matching optimization is developed.In the three-dimensional trajectory measurement based on binocular vision,the high-precision matching of binocular homonymous points is the key to improve the measurement accuracy.Especially in the narrow and long space near distance measurement scene of aeroengine safety monitoring,because the binocular camera shoots the target object from different angles,especially when the included angle of the optical axis of the binocular
作者
艾双哲
段发阶
李杰
吴凌昊
王霄枫
Ai Shuangzhe;Duan Fajie;Li Jie;Wu Linghao;Wang Xiaofeng(State Key Laboratory of Precision Measuring Technology&Instruments,Tianjin University,Tianjin 300072,China;AECC Sichuan Gas Turbine Research Establishment,Chengdu 611730,China)
出处
《红外与激光工程》
EI
CSCD
北大核心
2023年第3期251-263,共13页
Infrared and Laser Engineering
基金
广东省重点研发计划(2020 B0404030001)
国家重点研发计划(2020 YFB2010800)
国家自然科学基金(61905175,61971307)
国家重点实验室探索性课题(Pilt2103)
霍英东教育基金会资助(171055)
青年人才托举工程(2021 QNRC001)
国防科技重点实验室基金(6142212210304)
中国航发四川燃气涡轮研究院外委课题(WDZC-2021-3-4)。
关键词
形心匹配优化
双目视觉
距离和方法权重
灰度互相关
卡尔曼滤波
centroid matching optimization
binocular vision
distance and method weights
gray level cross correlation
Kalman filtering
