Title :
Experimental development of stiffness adjustable foot sole for use by bipedal robots walking on uneven terrain
Author :
Najmuddin, Ahmad ; Fukuoka, Yoshitaka ; Ochiai, Satoshi
Author_Institution :
Grad. Sch. of Sci. & Eng., Ibaraki Univ., Hitachi, Japan
Abstract :
This research aims to develop a novel foot sole mechanism which utilizes the jamming transition effect of granular material enclosed in an air tight bag, for use by bipedal robot walking on uneven ground. The mechanism is designed to make the foot sole be soft and compliant to adapt to the surface of an uneven terrain, and be stiff when the robot is in the support phase of the walking gait. The stiffness-variable property of the mechanism according to the internal air pressure of the bag is investigated. To measure the tilting stability when center of pressure is moved across the proposed foot sole, a test using an inverted pendulum apparatus had been carried out and compared to when using a rigid flat foot sole.
Keywords :
design engineering; design of experiments; elasticity; granular materials; legged locomotion; mechanical stability; nonlinear systems; path planning; pendulums; robot dynamics; air tight bag; bipedal robot walking; experimental development; granular material; internal air pressure; inverted pendulum apparatus; jamming transition effect; rigid flat foot sole; stiffness adjustable foot sole; tilting stability; uneven terrain; Collision avoidance; Foot; Friction; Jamming; Legged locomotion; Materials;
Conference_Titel :
System Integration (SII), 2012 IEEE/SICE International Symposium on
Conference_Location :
Fukuoka
Print_ISBN :
978-1-4673-1496-1
DOI :
10.1109/SII.2012.6426940
