Eye-in-Hand 3D Visual Servoing of Helical Swimmers Using Parallel Mobile Coils

2020 IEEE International Conference on Robotics and Automation (ICRA) Pub Date : 2020-05-01 DOI:10.1109/ICRA40945.2020.9197276

Zhengxin Yang, Lidong Yang, Li Zhang

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引用次数: 1

Abstract

Magnetic helical microswimmers can be propelled by rotating magnetic field and are adept at passing through narrow space. To date, various magnetic actuation systems and control methods have been developed to drive these microswimmers. However, steering their spacial movement in a large workspace is still challenging, which could be significant for potential medical applications. In this regard, this paper designs an eye-in-hand stereo-vision module and corresponding refraction-rectified location algorithm. Combined with the motor module and the coil module, the mobile-coil system is capable of generating dynamic magnetic fields in a large 3D workspace. Based on the system, a robust triple-loop stereo visual servoing strategy is proposed that operates simultaneous tracking, locating, and steering, through which the helical swimmer is able to follow a long-distance 3D path. A scaled-up magnetic helical swimmer is employed in the path following experiment. Our prototype system reaches a cylindrical workspace with a diameter more than 200 mm, and the mean error of path tracking is less than 2 mm.

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利用平行移动线圈的螺旋游泳者眼手三维视觉伺服

磁螺旋微游泳者可以通过旋转磁场推进，并擅长通过狭窄的空间。迄今为止，已经开发了各种磁致动系统和控制方法来驱动这些微型游泳者。然而，在大型工作空间中控制它们的空间运动仍然具有挑战性，这对潜在的医疗应用可能具有重要意义。为此，本文设计了手眼立体视觉模块及相应的折射校正定位算法。结合电机模块和线圈模块，移动线圈系统能够在大型3D工作空间中产生动态磁场。在此基础上，提出了一种同时进行跟踪、定位和转向的鲁棒三环立体视觉伺服策略，使螺旋游泳者能够沿着长距离的三维路径运动。采用按比例放大的磁性螺旋游泳器进行路径跟踪实验。我们的原型系统达到了直径大于200mm的圆柱形工作空间，轨迹跟踪的平均误差小于2mm。

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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2020 IEEE International Conference on Robotics and Automation (ICRA)

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