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Anatomically-Inspired Robotic Finger with SMA Tendon Actuation for Enhanced Biomimetic Functionality

Renke Liu, Huakai Zheng, Maroš Hliboký, H. Endo, Shuyao Zhang, Yusuke Baba, Hideyuki Sawada

2024Biomimetics13 citationsDOIOpen Access PDF

Abstract

This research introduces an advanced robotic finger designed for future generalist robots, closely mimicking the natural structure of the human finger. The incorporation of rarely discussed anatomical structures, including tendon sheath, ligaments, and palmar plates, combined with the usage of anatomically proven 3D models of the finger, give rise to the highly accurate replication of human-like soft mechanical fingers. Benefiting from the accurate anatomy of muscle insertions with the utilization of Shape Memory Alloy (SMA) wires' muscle-like actuation properties, the bonding in-between the flexor tendons and extensor tendons allows for the realization of the central and lateral band of the finger anatomy. Evaluated using the computer vision method, the proposed robotic finger demonstrates a range of motion (ROM) equivalent to 113%, 87% and 88% of the human dynamic ROM for the DIP, PIP and MCP joints, respectively. The proposed finger possesses a soft nature when relaxed and becomes firm when activated, pioneering a new approach in biomimetic robot design and offering a unique contribution to the future of generalist humanoid robots.

Topics & Concepts

TendonSMA*Shape-memory alloyComputer scienceRobot handRobotAnatomyBiomedical engineeringArtificial intelligenceEngineeringBiologyAlgorithmSoft Robotics and ApplicationsRobot Manipulation and LearningAdvanced Sensor and Energy Harvesting Materials
Anatomically-Inspired Robotic Finger with SMA Tendon Actuation for Enhanced Biomimetic Functionality | Litcius