Anthropomorphic Twisted String-Actuated Soft Robotic Gripper with Tendon-Based Stiffening
| Autor: | Revanth Konda, David Bombara, Steven Swanbeck, Jun Zhang |
|---|---|
| Jazyk: | angličtina |
| Rok vydání: | 2022 |
| Předmět: |
FOS: Computer and information sciences
Computer Science - Robotics Control and Systems Engineering FOS: Electrical engineering electronic engineering information engineering Systems and Control (eess.SY) Electrical and Electronic Engineering Robotics (cs.RO) Electrical Engineering and Systems Science - Systems and Control Computer Science Applications |
| Popis: | Realizing high-performance soft robotic grippers is challenging because of the inherent limitations of the soft actuators and artificial muscles that drive them, including low force output, small actuation range, and poor compactness. Despite advances in this area, realizing compact soft grippers with high dexterity and force output is still challenging. This paper explores twisted string actuators (TSAs) to drive a soft robotic gripper. TSAs have been used in numerous robotic applications, but their inclusion in soft robots has been limited. The proposed design of the gripper was inspired by the human hand. Tunable stiffness was implemented in the fingers with antagonistic TSAs. The fingers' bending angles, actuation speed, blocked force output, and stiffness tuning were experimentally characterized. The gripper achieved a score of 6 on the Kapandji test and recreated 31 of the 33 grasps of the Feix GRASP taxonomy. It exhibited a maximum grasping force of 72 N, which was almost 13 times its own weight. A comparison study revealed that the proposed gripper exhibited equivalent or superior performance compared to other similar soft grippers. 19 pages, 15 figures |
| Databáze: | OpenAIRE |
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