基于前向光线追迹技术的单光场相机空间分辨率研究OA
Research on spatial resolution of a single light field camera based on forward ray tracing technique
在三维场景重建过程中,光场相机的空间分辨率会影响可恢复的空间细节和深度分辨率,从而影响三维重建的准确性.因此,对光场相机的空间分辨率进行计算与分析,对于高分辨率和低分辨率区域的识别十分重要.本文利用前向光线追迹技术的高精度优点,研究了一种基于前向光线追迹技术的光场相机空间分辨率计算方法.对不同微透镜阵列排列方式下的光场相机1.0和2.0的空间分辨率进行了定量计算和比较.进一步研究了不同的主镜头逆放大率(Ml)对光场相机深度分辨率的影响.结果表明,光场相机在物平面与光轴交点附近以外的区域具有较高的深度分辨率.光场相机2.0在(0,0,0)附近区域的深度分辨率优于光场相机1.0.对于正方形排列的微透镜阵列,光场相机2.0的横向分辨率较光场相机1.0略有提升.光场相机1.0的深度分辨率随着Ml的增大而逐渐降低.
In the process of 3D scene reconstruction,the spatial resolution of the light field camera(LFC)af-fects the recoverable spatial details as well as the depth resolution,thereby influencing the accuracy of the 3D reconstruction.Therefore,calculating and analyzing the spatial resolution of the LFC is crucial for identify-ing the high and low resolution regions.In this paper,a calculation method for the spatial resolution of an LFC is explored based on the forward ray-tracing technique,which has the advantage of high accuracy.The spatial resolutions of LFC 1.0 and LFC 2.0 under different microlens array configurations are quantitatively calculated and compared.In addition,the effects of the inverse magnification(Ml)of the main lens on the depth resolution of the LFC are investigated.The results show that the LFC exhibits higher depth resolution in regions away from the intersection of the object plane and the optical axis.The depth resolution of LFC 2.0 near the region of(0,0,0)is better than that of LFC 1.0.For a microlens array arranged in a square pat-tern,the lateral resolution of LFC 2.0 shows a slight improvement over that of LFC 1.0.The depth resolution of the LFC 1.0 gradually decreases as Ml increases.
田杏;曹丽霞
中国计量大学计量测试与仪器学院,杭州 310018中国计量大学计量测试与仪器学院,杭州 310018
数理科学
光场相机空间分辨率重建光线追迹深度分辨率
light field cameraspatial resolutionreconstructionray tracingdepth resolution
《中国光学(中英文)》 2026 (1)
69-84,16
国家自然科学基金(No.12302370)Supported by National Natural Science Foundtion of China(No.12302370)
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