Adobe portable document format (pdf) [386 KB] Compressed postscript (ps.gz) [928 KB]Graphics enhanced version of this site
Design and Philosophy of the BiMASC, a Highly Dynamic Biped
J.W. Hurst, J. Chestnutt, and A. Rizzi
IEEE Conference on Robotics and Automation, April, 2007.
Jump to: Download | Abstract | Notes | Text Reference | BibTeX Reference
Adobe portable document format (pdf) [386 KB] Compressed postscript (ps.gz) [928 KB]
Copyright notice: This material is presented to ensure timely dissemination of scholarly and technical work. Copyright and all rights therein are retained by authors or by other copyright holders. All persons copying this information are expected to adhere to the terms and constraints invoked by each author's copyright. These works may not be reposted without the explicit permission of the copyright holder.
This paper discusses the design principles and philosophy of theBiMASC, a biped with Mechanically Adjustable Series Compliance which incorporates tuned mechanical leg springs. This robot will be capable of dynamic running using mechanical leg springs, as well as dynamic ballistic walking with human-like passive leg swing behavior. The BiMASC will enable the study of the role of both controllable compliance in running and will serve as a test platform for control strategies that utilize the leg springs and other natural dynamics of the robot.
The mechanism is designed to behave in a dynamically ``clean'' manner, such that relatively simple mathematical models will accurately predict the robot's behavior. The availability of simple and accurate mathematical models will facilitate the design of controllers, accurate simulations, and the implementation of accurate model-based control on the robot.
Sponsor: NSF
Associated lab/group: Microdynamic Systems Laboratory
Associated projects: The Electric Cable Differential (ECD) Leg and Actuator with Mechanically Adjustable Series Compliance
J.W. Hurst, J. Chestnutt, and A. Rizzi, "Design and Philosophy of the BiMASC, a Highly Dynamic Biped," IEEE Conference on Robotics and Automation, April, 2007.
@inproceedings{Hurst_2007_5709,
author = "Jonathan W Hurst and Joel Chestnutt and Alfred Rizzi",
title = "Design and Philosophy of the BiMASC, a Highly Dynamic Biped",
booktitle = "IEEE Conference on Robotics and Automation",
month = "April",
year = "2007"
}