Tail Assisted Dynamic Self Righting

Loading...
Thumbnail Image
Penn collection
Departmental Papers (ESE)
General Robotics, Automation, Sensing and Perception Laboratory
Kod*lab
Degree type
Discipline
Subject
GRASP
Kodlab
Electrical and Computer Engineering
Engineering
Systems Engineering
Funder
Grant number
License
Copyright date
Distributor
Related resources
Author
Johnson, Aaron M.
Libby, Thomas
Chang-Siu, Evan
Tomizuka, Masayoshi
Full, Robert J.
Contributor
Abstract

In this paper we explore the design space of tails intended for self-righting a robot’s body during free fall. Conservation of total angular momentum imposes a dimensionless index of rotational efficacy upon the robot’s kinematic and dynamical parameters whose selection insures that for a given tail rotation, the body rotation will be identical at any size scale. In contrast, the duration of such a body reorientation depends upon the acceleration of the tail relative to the body, and power density of the tail’s actuator must increase with size in order to achieve the same maneuver in the same relative time. Assuming a simple controller and power-limited actuator, we consider maneuverability constraints upon two different types of parameters — morphological and energetic — that can be used for design. We show how these constraints inform contrasting tail design on two robots separated by a four-fold length scale, the 177g Tailbot and the 8.1kg X-RHex Lite (XRL). We compare previously published empirical self-righting behavior of the Tailbot with new, tailed XRL experiments wherein we drop it nose first from a 2.7 body length height and also deliberately run it off an elevated cliff to land safely on its springy legs in both cases. This was supported primarily by the ARL/GDRS RCTA and the NSF CiBER-IGERT under Award DGE-0903711. For more information: Kod*Lab

Advisor
Date of presentation
2012-07-26
Conference name
Departmental Papers (ESE)
Conference dates
2023-05-17T08:09:41.000
Conference location
Date Range for Data Collection (Start Date)
Date Range for Data Collection (End Date)
Digital Object Identifier
Series name and number
Volume number
Issue number
Publisher
Publisher DOI
Journal Issue
Comments
BibTeX entry @inproceedings{paper:johnson_clawar_2012, Author = {Aaron M. Johnson and Thomas Libby and Evan Chang-Siu and Masayoshi Tomizuka and Robert J. Full and D. E. Koditschek}, booktitle={Proceedings of the Fifteenth International Conference on Climbing and Walking Robots}, title = {Tail Assisted Dynamic Self Righting}, month = {July}, year = {2012}, pages = {611--620} }
Recommended citation
Collection