A Bio-Inspired Slip Detection and Reflex-Like Suppression Method for Robotic Manipulators
Autor: | Alcimar Barbosa Soares, Nitish V. Thakor, John-John Cabibihan, Andrei Nakagawa-Silva |
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Rok vydání: | 2019 |
Předmět: |
robotics
business.industry Computer science 010401 analytical chemistry Robot manipulator Robotics Slip (materials science) 01 natural sciences tactile sensing 0104 chemical sciences body regions Event-based Control theory slip detection Control system Computer vision Artificial intelligence prosthetics Electrical and Electronic Engineering business Instrumentation Tactile sensor |
Zdroj: | IEEE Sensors Journal. 19:12443-12453 |
ISSN: | 2379-9153 1530-437X 2001-2012 |
Popis: | Robotic manipulators face significant challenges when handling objects of different sizes and shapes. Incorporating a sense of touch into these devices has the potential to improve performance and dexterity. In this paper, a bio-inspired approach is presented for slip detection and suppression during object manipulation. The method was inspired by the behavior of FA-I afferents located in the glabrous skin that encode sliding motion of objects over the skin. The proposed slip detection method encodes object motion captured by a slip sensor into spikes, following principles of neuromorphic sensing. The spikes are used as the feedback signal for an event-based closed-loop control system. The controller behaves in a reflex-like manner and actively engages the robotic fingers to increase grip force and suppress slip. A Dynamic Adaptive Threshold method was designed to improve slip detection for different surface properties of grasped objects. The performance of the method was evaluated following situations of dynamic slip caused by a sudden or gradual increase in object weight. The results demonstrated the feasibility of the proposed method. Slip events were suppressed before complete object slippage in 80% of all experimental trials. The response time ( Delta {\text {t}} < 85$ ms) was compatible with the time for grip force adjustments in humans. This paper explored event-based touch applicable to the problem of manipulation, which is less explored than event-based tactile perception and shows promising prospects for both robotics and prosthetics. - 2001-2012 IEEE. Scopus |
Databáze: | OpenAIRE |
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