A Proprioceptive Haptic Device Design for Teaching Bimanual Manipulation

2022 International Conference on Robotics and Automation (ICRA) Pub Date : 2022-05-23 DOI:10.1109/icra46639.2022.9811694

Choong-Keun Lee, Taeyoon Lee, Jae-Kyung Min, Albert Wang, SungPyo Lee, Jaesung Oh, Chang-Woo Park, Keunjun Choi

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Abstract

Manipulation involves a broad spectrum of skills, e.g., polishing, peeling, flipping, screwing, etc., requiring complex and delicate control over both force and position. This paper aims at designing an optimal haptic interface for providing a robot with direct demonstrations of human's innate intelligence in performing a wide range of force-based bimanual manipulation tasks. Based on the proprioceptive actuation mechanism, kinodynamic design parameters of the (dual) 7-DOF haptic arm are optimized so as to maximize the force transparency perceived by the operator over the full real-scale workspace of human arm while also ensuring other important constraints including robot-to-operator collision and singularity avoidance, payload, controlled stiffness, etc. 2.65 kg of average reflective mass and 1500 N/m of controlled stiffness is achieved over the entire workspace. We show the efficacy of our haptic interface by demonstrating various force-based manipulation tasks with a light-weight anthropomorphic bimanual manipulator, LIMS2-AMBIDEX [1].

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一种用于双手操作教学的本体感觉触觉装置设计

操作涉及广泛的技能，例如，抛光，剥离，翻转，旋转等，需要对力和位置进行复杂而精细的控制。本文旨在设计一种最优的触觉界面，使机器人在执行各种基于力的手动操作任务时能够直接展示人类的先天智能。基于本体感觉驱动机制，优化了(双)七自由度触觉臂的动力学设计参数，使操作者在整个实际工作空间内感知到的力透明度最大化，同时保证了机器人与操作者碰撞和避免奇异、有效载荷、控制刚度等其他重要约束条件。在整个工作空间内实现了2.65 kg的平均反射质量和1500 N/m的控制刚度。我们通过使用轻量级拟人化双手机械手LIMS2-AMBIDEX演示各种基于力的操作任务来展示触觉界面的功效[1]。

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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2022 International Conference on Robotics and Automation (ICRA)

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