Moving Object Detection Based on Omni-Directional Vision
WANG Yu1,2, WANG Yong-Tian1, LIU Yue1
1.Department of Optical Engineering, School of Information Science and Technology, Beijing Institute of Technology, Beijing 1000812. College of Mechanical and Electronic Engineering, Changchun Institute of Technology, Changchun 130012
Abstract:Based on omni-directional image characteristic, an algorithm is proposed to recognize and detect moving object with a static camera. First an omni-directional image is unwrapped through a fast unwrapping algorithm. Then the correction of the unwrapped image is performed based on a nonlinear distortion model. And an adaptive background modeling is built, which is real-time updated. Finally, the foreground is obtained to detect moving object. By the low resolution of the omni-directional correction image, the algorithm effectively solves problems of the noise and the shadow during the abstraction of the foreground. Experimental results show that the proposed algorithm is fast and effective.
王宇,王涌天,刘越. 一种基于全向视觉的运动物体检测算法*[J]. 模式识别与人工智能, 2008, 21(4): 488-493.
WANG Yu, WANG Yong-Tian, LIU Yue. Moving Object Detection Based on Omni-Directional Vision. , 2008, 21(4): 488-493.
[1] Verri A, Uras S, DeMicheli E. Motion Segmentation from Optical Flow // Proc of the 5th Alvey Vision Conference. Reading, UK, 1989: 209- 214 [2] Barron J L, Fleet D J, Beauchemin S S. Performance of Optical Flow Techniques. International Journal of Computer Vision, 1994, 12(1): 42-77 [3] Lipton A J, Fujiyoshi H, Patil R S. Moving Target Classification and Tracking from Real-Time Video // Proc of the 4th IEEE Workshop on Applications of Computer Vision. Princeton, USA, 1998: 8-14 [4] Neri A, Colonnese S, Russo G, et al. Automatic Moving Object and Background Separation. Signal Processing, 1998, 66(2): 219-232 [5] Stauffer C, Grimson W E L. Adaptive Background Mixture Models for Real-Time Tracking // Proc of the IEEE Computer Society Conference on Computer Vision and Pattern Recognition. Fort Collins, USA, 1999, Ⅱ: 246-252 [6] Ohta N. A Statistical Approach to Background Subtraction for Surveillance Systems // Proc of the International Conference on Computer Vision. Los Alamitos, USA, 2001, Ⅱ: 481-486 [7] Horprasert T, Harwood D, Davis L. A Statistical Approach for Real-Time Robust Background Subtraction and Shadow Detection // Proc of the 3rd IEEE International Conference on Computer Vision. Corfu, Greece, 1999: 1-19 [8] Fang Shuai, Xue Fangzheng, Xu Xinhe. Moving Object Detection Based on Self-Adaptive Background Modeling. Journal of System Simulation, 2005, 17(1): 159-161,165 (in Chinese) (方 帅,薛方正,徐心和.基于背景建模的动态目标检测算法的研究与仿真.系统仿真学报, 2005, 17(1): 159-161,165) [9] Zhang Jian, Duan Tao, Liu Aidong. Algorithm Research on Correction of Geometric Distortion and Its Implement of Software. Optics & Optoelectronic Technology, 2003, 1(2): 60-64 (in Chinese) (张 健,段 滔,刘爱东.全景图像几何畸变校正的算法研究及其软件实现.光学与光电技术, 2003, 1(2): 60-64) [10] Pi Wenkai, Liu Hong, Zha Hongbin. Motion Detection for Human Bodies Basing Adaptive Background Subtraction by Using an Omnidirectional Camera. Acta Scientiarum Naturalium Universitatis Pekinensis, 2004, 40(3): 458-464 (in Chinese) (皮文凯,刘 宏,查红彬.基于自适应背景模型的全方位视觉人体运动检测.北京大学学报:自然科学版, 2004, 40(3): 458-464) [11] Liu Jingen. A Rectification Algorithm for Photoelectric Image with Distortion Based on Method of Onsite Ascertained Standard. Acta Photonica Sinica, 2004, 33(6): 732-735 (in Chinese) (刘金根.一种基于现场定标的光电图像畸变校正算法.光子学报, 2004, 33(6): 732-735) [12] Guo Xin, Zhang Qi, Yang Liying, et al. Extraction of Complex Background with Moving Objects. Automation Panorama, 2005, 22(6): 70-71 (in Chinese) (郭 欣,张 旗,杨丽英,等.带有运动目标的复杂背景的提取.自动化博览, 2005, 22(6): 70-71)
2008, Vol. 21 
