Previous work on the classification of stability criteria for walking machines reveals that there is no stability margin that accurately predicts robot stability when inertial and manipulation effects are significant. The use of an improper stability criterion yields unavoidable errors in the control of walking robots. Moreover, inertial and manipulation effects usually appear in the motion of these robots when the machines are used for services or industrial applications. A new stability margin that accurately measures robot stability considering dynamic effects arising during motion is proposed in this paper. The new stability margin is the optimum from the energy point of view. Numerical comparison has been conducted to support the margin’s suitability. ; Sponsored by Institute of Systems and Robotics (ISR Coimbra, IEEE Portuguese Section ; technical co-sponsors IEEE Robotics and Automation Society, [et al.] ; Peer reviewed
A New Dynamic Energy Stability Margin for Walking Machines
01.01.2003
Aufsatz (Konferenz)
Elektronische Ressource
Englisch
DDC: | 629 |
An Improved Energy Stability Margin for An Improved Energy Stability Margin for
BASE | 2005
|Approach for the Gait Stability Margin of a Six-Legged Walking Vehicle
British Library Conference Proceedings | 1993
|Dynamic performance analysis of six-legged walking machines
Online Contents | 2000
|Rocker outsole shoes and margin of stability during walking: a preliminary study
BASE | 2017
|British Library Conference Proceedings | 1993
|