在AVG和AMR应用中用于移动物体和障碍物检测的实时立体视觉系统

Seventh International Workshop on Computer Architecture for Machine Perception (CAMP'05) Pub Date : 2005-07-04 DOI:10.1109/CAMP.2005.6

P. Foggia, A. Limongiello, M. Vento

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引用次数: 10

摘要

提出了一种基于立体视觉的实时运动目标和障碍物检测系统(MOOD)。计算视差图以获得场景的3D表示并识别障碍物。采用了文献中最好的方法，并适当地进行了修改，以获得高帧率和高精度要求之间的最佳折衷。提出了一种基于光流的运动矢量分析算法，对运动物体和障碍物进行分割。应用领域是自动车辆导航(AVG)和自主移动机器人(AMR)，其中立体视觉系统应用于车载。结果提出了参考合成数据库创建特别证明一些有趣的情况下，目标/障碍的轨迹。

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A real-time stereo-vision system for moving object and obstacle detection in AVG and AMR applications

This paper presents a real-time system for moving object and obstacle detection (MOOD) based on stereo vision. A disparity map is calculated to have a 3D representation of the scene and to recognize obstacles. The best methods in literature have been employed and opportunely modified to obtain the best compromise between the high frame-rate and the high accuracy requirements. An efficient algorithm for motion vector analysis, based on optical flow, is used to segment moving objects and obstacles. The application domain is automatic vehicle guidance (AVG) and autonomous mobile robots (AMR), in which a stereo vision system is applied on board. Results are presented with reference to a synthetic database created ad hoc to evidence some interesting cases of object/obstacle trajectories.

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Seventh International Workshop on Computer Architecture for Machine Perception (CAMP'05)

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