We have been developing human-sized biped robots based on passive dynamic
mechanisms. In human locomotion, the muscles activate at the same rate relative
to the gait cycle during running. To achieve adaptive running for robots, such
characteristics should be reproduced to yield the desired effect. In this
study, we designed a central pattern generator (CPG) involving fast and slow
adaptation to achieve human-like running using a simple spring-mass model and
our developed bipedal robot, which is equipped with actuators that imitate the
human musculoskeletal system. Our results demonstrate that fast and slow
adaptations can reproduce human-like running with a constant rate of muscle
firing relative to the gait cycle. Furthermore, the results suggest that the
CPG contributes to the adjustment of the muscle activation timing in human
running.Comment: 15 pages, 12 figures, submitted to Advanced Robotic