Paper Info
Title
Unified bipedal gait for autonomous transition between walking and running in pursuit of energy minimization.
Abstract
This paper addresses “unified bipedal gait” control, which autonomously selects the energy-minimized gait from walking and running at any feasible gait speeds. Humans select walking/running at low/high speed in pursuit of energy minimization and transition between them naturally. Despite the quite different behaviors of walking and running, human gaits share an inherent controller. The unified bipedal gait uses the inherent controller, which implements passive dynamic autonomous control (PDAC) based on a damping and spring-loaded inverted pendulum (D-SLIP) model. Although this D-SLIP could cause chaotic motions, compliance in the D-SLIP dynamics switches behaviors between walking and running, that is, low/high compliant legs for walking/running. This property is employed by the virtual holonomic constraint of the PDAC to extract the required characteristics of walking/running from the D-SLIP dynamics while restraining the chaotic motions for asymptotic stability. As a result, the unified bipedal gait bifurcates to walking and running via autonomous transition to minimize energy cost at any feasible gait speeds.
Year
DOI
Venue
2018
10.1016/j.robot.2018.02.005
Robotics and Autonomous Systems
Keywords
Field
DocType
3-D bipedal gait,Limit cycle,Transition motion,Energy minimization,Passive dynamic autonomous control,Unified bipedal gait
Inverted pendulum,Control theory,Holonomic constraints,Gait,Simulation,Computer science,Control theory,Exponential stability,Chaotic,Energy minimization,Autonomous control
Journal
Volume
ISSN
Citations 
103
0921-8890
2
PageRank 
References 
Authors
0.36
17
5
Name
Order
Citations
PageRank
Taisuke Kobayashi13110.92
Kosuke Sekiyama229658.93
Yasuhisa Hasegawa345694.62
Tadayoshi Aoyama46928.58
Toshio Fukuda52723818.58