Stable grasping and object reorientation with a three-fingered robotic hand

2017 IEEE International Symposium on Robotics and Intelligent Sensors (IRIS) Pub Date : 2017-10-01 DOI:10.1109/IRIS.2017.8250140

Vinicius Prado da Fonseca, T. E. A. de Oliveira, Katerina Eyre, E. Petriu

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引用次数: 10

Abstract

Robotic hands able to conduct precision in-hand manipulation have become imperative for modern robotic systems. Compliant finger joints provide compliant grasping but the post-grasp orientation of an object varies. Under-actuated, robotic hands that are capable of grasping and reorienting objects are one step closer to human-like end-effectors. This paper presents a hand prototype with two under-actuated fingers embedded with tactile feedback and a fuzzy system to obtain a stable grasp, integrated to the gripper. One fully actuated robotic thumb with 3 degrees of freedom (DOF) is also presented. The integrated system evaluates tactile feedback, object orientation and thumb trajectory planning for in-hand manipulation tasks. The fuzzy logic controller was able to perform stable grasping while the tactile sensors fixed on the phalanges successfully detected the objects' changes in orientation. In conclusion the stable grasping was maintained during the object reorientation achieving the in-hand manipulation for the proposed task.

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用三指机械手稳定抓取和物体重定向

能够进行精确在手操作的机械手已经成为现代机器人系统的必要条件。柔顺的手指关节提供柔顺的抓取，但抓取后对象的方向变化。不受驱动的机器人手能够抓取和重新定位物体，离类人末端执行器又近了一步。本文提出了一个手原型，其中两个欠驱动手指嵌入触觉反馈和模糊系统，以获得稳定的抓握，并集成到抓手中。提出了一种具有3个自由度的全驱动机械拇指。综合系统评估触觉反馈，物体方向和拇指轨迹规划在手操作任务。模糊逻辑控制器能够稳定抓取，而固定在指骨上的触觉传感器成功地检测到物体的方向变化。总之，在物体重定向过程中保持了稳定的抓取，从而实现了对所提出任务的手控操作。

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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2017 IEEE International Symposium on Robotics and Intelligent Sensors (IRIS)

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