机器人
运动学
控制理论(社会学)
接触力
光学(聚焦)
机器人运动学
计算机科学
软机器人
弹道
情态动词
工程类
模拟
控制工程
人工智能
移动机器人
物理
控制(管理)
光学
材料科学
天文
高分子化学
量子力学
经典力学
作者
Yue Chen,Long Wang,Kevin C. Galloway,Isuru S. Godage,Nabil Simaan,Eric J. Barth
出处
期刊:Soft robotics
[Mary Ann Liebert, Inc.]
日期:2020-07-15
卷期号:8 (3): 298-309
被引量:70
标识
DOI:10.1089/soro.2019.0095
摘要
Soft robots offer an alternative approach to manipulate within a constrained space while maintaining a safe interaction with the external environment. Owing to its adaptable compliance characteristic, external contact force can easily deform the robot shapes and lead to undesired robot kinematic and dynamic properties. Accurate contact detection and contact location estimation are of critical importance for soft robot modeling, control, trajectory planning, and eventually affect the success of task completion. In this article, we focus on the investigation of a one degree of freedom (1-DoF) soft pneumatic bending robot, which is regarded as one of the fundamental components to construct complex, multi-DoFs soft robots. This 1-DoF soft robot is modeled through the integral representation of the spatial curve, where direct and instantaneous kinematics are calculated explicitly through a modal method. The fixed centrode deviation method is used to detect the external contact and estimate the contact location. Simulation results and experimental studies indicate that the contact location can be accurately estimated by solving a nonlinear least-square optimization problem. Experimental validation shows that the proposed algorithm is able to successfully estimate the contact location with the estimation error of 1.46 mm.
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