Image processing for remotely teleoperated robotic manipulator system for underwater operations

Proceedings of the 2004 International Symposium on Underwater Technology (IEEE Cat. No.04EX869) Pub Date : 2004-04-20 DOI:10.1109/UT.2004.1405630

Chung-Chang Wu, Chun-Jen Huang, Jung-Hua Wang

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引用次数: 1

Abstract

Presents a method for providing the 3-D spatial information of an object targeted by a remotely teleoperated robotic manipulator system for underwater operations. We use two CCD cameras to capture the raw input picture containing the target object. In order to cope with the rapidly changing undersea environment, we apply the fast image segmentation approach that incorporates watersheds analysis and SFT (Synchronous Feature Tuning) merging algorithm to accurately extract the object. In addition, in order to determine the center coordinates of the target object, a red-light laser is used to pinpoint the object, roughly at the center of the object. The red-light laser points on the two pictures are recognized and the corresponding 2-D coordinates of the two points are calculated. Based on the 2-D coordinates thus obtained, we employ the binocular stereo correspondence technique to determine the 3-D coordinates of the object. The experimental result has shown that, at one meter away from the remotely teleoperated robotic manipulator system, an error rate less than 3% can be achieved.

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水下作业遥控操纵机器人系统的图像处理

提出了一种用于水下作业的遥控机械臂系统提供目标三维空间信息的方法。我们使用两个CCD相机捕捉包含目标物体的原始输入图像。为了应对快速变化的海底环境，我们采用了结合流域分析和SFT (Synchronous Feature Tuning)合并算法的快速图像分割方法来准确提取目标。此外，为了确定目标物体的中心坐标，使用红光激光对物体进行精确定位，大致在物体的中心。识别两幅图上的红光激光点，计算两点对应的二维坐标。在得到二维坐标的基础上，采用双目立体对应技术确定目标的三维坐标。实验结果表明，在距离远程遥控机械手系统1米远的地方，可以实现错误率小于3%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Proceedings of the 2004 International Symposium on Underwater Technology (IEEE Cat. No.04EX869)

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