Local Curvature Estimation and Grasp Stability Prediction Based on Proximity Sensors on a Multi-Fingered Robot Hand

Pub Date : 2023-10-20 DOI:10.20965/jrm.2023.p1340

Yosuke Suzuki, Ryoya Yoshida, Tokuo Tsuji, Toshihiro Nishimura, Tetsuyou Watanabe

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Abstract

This study aims to realize a precision grasp of unknown-shaped objects. Precision grasping requires a detailed understanding of the surface shapes such as concavity and convexity. If an accurate shape model is not given in advance, it must be addressed by sensing. We have proposed a method for recognizing detailed object shapes using proximity sensors equipped on each fingertip of a multi-fingered robot hand. Direct sensing of the object’s surface from the fingertips enables both avoidance of unintended collision during the approach process and recognition of surface profiles for use in planning and executing stable grasping. This paper introduces local surface curvature estimation to improve the accuracy of local surface recognition. We propose practical and accurate models to estimate local curvature based on various characteristic tests on the proximity sensor and to estimate the distance to the nearest point. In actual experiments, it was shown that it was possible to estimate the position of the nearest point with a mean error of less than 2 mm and to predict grasping stability in reasonable real-time for the object shape.

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基于接近传感器的多指机械手局部曲率估计及抓取稳定性预测

本研究旨在实现对未知形状物体的精确抓取。精确抓取需要对曲面形状如凹凸有详细的了解。如果事先没有给出准确的形状模型，则必须通过传感来解决。我们提出了一种方法来识别详细的物体形状使用接近传感器装备在多指机器人的每个指尖。从指尖直接感知物体表面，既可以避免在接近过程中发生意外碰撞，也可以识别表面轮廓，用于规划和执行稳定抓取。为了提高局部曲面识别的精度，本文引入了局部曲面曲率估计。我们提出了实用和准确的模型来估计局部曲率基于各种特性测试的接近传感器和估计到最近点的距离。在实际实验中表明，该方法可以在平均误差小于2mm的情况下估计出最近点的位置，并可以合理实时地预测物体形状的抓取稳定性。

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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