Open AccessMotion Planning Using an Impact-Based Hybrid Control for Trajectory Generation in Adaptive Walking
Author(s) -
Umar Asif,
Javaid Iqbal
Publication year - 2011
Publication title -
international journal of advanced robotic systems
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.394
H-Index - 46
eISSN - 1729-8814
pISSN - 1729-8806
DOI - 10.5772/45701
Subject(s) - hexapod , computer science , robot , trajectory , terrain , control theory (sociology) , motion planning , stability (learning theory) , motion (physics) , position (finance) , control (management) , simulation , artificial intelligence , ecology , physics , finance , astronomy , machine learning , economics , biology
This paper aims to solve a major drawback of walking robots i.e. their inability to react to environmental disturbances while navigating in natural rough terrains. This problem is reduced here by suggesting the use of a hybrid force-position control based trajectory generation with the impact dynamics into consideration that compensates for the stability variations, thus helping the robot react stably in the face of environmental disturbances. As a consequence, the proposed impact-based hybrid control helps the robot achieve better and stable motion planning than conventional position-based control algorithms. Dynamic simulations and real world outdoor experiments performed on a six legged hexapod robot show a relevant improvement in the robot locomotion
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