Manuscript Number : IJSRSET196180
Passive Dynamic Bounding Control using Symmetry Condition Control Laws
Authors(2) :-P. Murali Krishna, R. Prasanth Kumar
Legged locomotion is preferred over the wheeled locomotion as it can be used both for flat and rough terrains. Quadruped robots are preferred since they can offer better stability with considerable reliability. In recent years, passive dynamics has been used to obtain near zero-energy bounding gaits. Although theoretically such gaits consume no energy, in practice some additional energy is required to overcome losses. Existence and stability of such gaits have been thoroughly studied in literature for quadruped models with the assumption that the mass distribution and stiffness in the front and back legs are symmetric. Fixed points found using Poincare map indicate touchdown angle-liftoff angle symmetry between front and back legs. This property can be used to search for fixed points with ease. However, the range of initial conditions where the bounding gait is stable is highly limited. Control laws based on symmetry conditions observed are proposed in this paper to improve the stability region. One such control law based on body-fixed touchdown angles theoretically allows redesign of quadruped robot with physical cross coupling between legs to achieve inherent stability without leg actuation.
P. Murali Krishna
Dynamic bounding, Robot, Stability.
Publication Details
Published in :
Volume 6 | Issue 1 | January-February 2019 Article Preview
CAIR, DRDO, Bangalore, Karnataka, India
R. Prasanth Kumar
Department of Mechanical and Aerospace Engineering, IIT Hyderabad, India
Date of Publication :
2019-02-28
License: This work is licensed under a Creative Commons Attribution 4.0 International License.
Page(s) :
451-457
Manuscript Number :
IJSRSET196180
Publisher : Technoscience Academy
Journal URL :
https://ijsrset.com/IJSRSET196180