摘要
为了解决RGB-D相机获取的原始深度图像数据包含噪声和空洞的问题,文中提出一种基于彩色图像引导的深度图像滤波算法。该算法基于双边滤波原理,以彩色图像作为引导图,将彩色图像灰度化后的灰度像素变化权值与高斯滤波权值相乘得到滤波综合权值,然后利用高斯核函数的分离特性,通过快速高斯变换降低计算的复杂度,提高算法的运行速度。实验结果表明,该算法在对原始深度图像进行滤波后,可显著提高深度图去噪效果,在保持双边滤波器去噪保边优点的同时,能对深度图像的小面积空洞区域进行修复,缩短运行时间。
In order to solve the problem that the original depth image data acquired by RGB-D camera contains noise and holes,a depth image filtering algorithm based on color image guidance is proposed in this study.The proposed algorithm is based on the principle of bilateral filtering.First,the color image is used as a guide map,and the gray pixel change weight of the color image is multiplied by the Gaussian filter weight to obtain the comprehensive filter weight.Then,the algorithm uses the separation characteristic of the Gaussian kernel function to reduce the computational complexity and improve the running speed of the algorithm through fast Gaussian transformation.Experimental results show that after filtering the original depth image,the algorithm can significantly improve the denoising effect of depth image.Additionally,the algorithm can repair the small-area void area of the depth image while maintaining the advantages of bilateral filter denoising and edge preservation,and shorten the running time.
作者
吴海波
王晨
崔禹
WU Haibo;WANG Chen;CUI Yu(Faculty of Mechanical and Electrical Engineering,Kunming University of Science and Technology,Kunming 650500,China)
出处
《电子科技》
2021年第11期31-36,共6页
Electronic Science and Technology
基金
国家重点研发计划(2017YFC1702503)。
关键词
RGB-D
深度图像
噪声
空洞
双边滤波器
快速高斯变换
去噪保边
RGB-D
depth image
noise
holes
bilateral filtering
fast Gaussian transformation
de-noising and edge preserving
