Limbless locomotion reveals increasing interest among locomotion methods inspiring mobile robots. This paper deals with the lateral undulation, one type of terrestrial snakelike locomotion. It represents the first part of a research project based on a biologically inspired approach. The purpose, in this first place, is to cover the physical principles involved in lateral undulation. Following an overview of the lateral undulation as it occurs in nature, the authors consider a generic planar mechanism and a related environment that suit to satisfy the fundamental mechanical phenomenon observed in the locomotion of terrestrial snakes. Application of a relatively simple control law is tested through dynamic simulations. In the second place, the results of this introductory study are going to be used in the research of an appropriate technological solution for an artificial snake exerting lateral undulation. The approach presented differs from other works on the subject in the sense that it does not require any wheeled structure.

Issue Section:
Technical Briefs
Keywords:
Biologically Inspired Methods, Lateral Undulation, Mobile Robots, Motion Control, Snakelike Locomotion, mobile robots, robot dynamics, motion control, inspection
Topics:
Computation, Friction, Mobile robots, Motion control, Simulation, Torque, Trajectories (Physics), Chain, Optimization, Actuators, Inspection
1.
Hirose
,
S.
. 1993,
Biologically Inspired Robots: Snake-like Locomotors and Manipulators
,
Oxford University Press
, New York.
2.
Chirikjian
,
G. S.
, and
Burdick
,
J. W.
. 1995, “
Kinematics of Hyper-Redundant Robot Locomotion
,”
IEEE Trans. Rob. Autom.
1042-296X
11
, pp.
781
793
.
Crossref
Search ADS
 
3.
Ostrowski
,
J. P.
. 1995, “
Geometric Perspectives on the Mechanics and Control of Undulatory Robotic Locomotion
,” Ph.D. thesis, CalTech, Pasadena, CA.
4.
Dowling
,
K. J.
. 1997, “
Limbless Locomotion: Learning to Crawl with a Snake Robot
,” Ph.D. thesis, CMU, Pittsburgh, PA.
5.
Klaassen
,
B.
, and
Paap
,
K. L.
. 1999, “
GMD-Snake 2: A Snake-Like Robot Driven by Wheels and a Method for Motion Control
,” in
Proc. of 1999 IEEE/ICRA
, Detroit, MI, pp.
3014
3019
.
6.
Ma
,
S.
. 1999, “
Analysis of Snake Movement Forms for Realization of Snake-Like Robots
,” in
Proc. of 1999 IEEE/ICRA
, Detroit, MI, pp.
3007
3013
.
7.
Miller
,
G.
. 2002, “
Snake Robots for Research and Rescue
,” in
Neurotechnology for Biomimetic Robots
,
J.
Ayers
,
J. L.
Davis
, and
A.
Rudolph
, eds.,
MIT Press
, Cambridge, MA, pp.
271
284
.
8.
Bayraktaroglu
,
Z. Y.
,
Butel
,
F.
,
Pasqui
,
V.
 and
Blazevic
,
P.
. 2000, “
Snake-Like Locomotion: Integration of Geometry and Kineto-Statics
,”
Adv. Rob.
14
(
6
), pp.
447
458
.
Crossref
Search ADS
 
9.
Bogert
,
C. M.
. 1947, “
Rectilinear Locomotion in Snakes
,”
Copeia
0045-8511
4
, pp.
253
254
.
10.
Cowles
,
R. B.
. 1956, “
Sidewinding Locomotion in Snakes
,”
Copeia
0045-8511
4
, pp.
211
214
.
11.
Gans
,
C.
. 1962, “
Terrestrial Locomotion Without Limbs
,”
Am. Zool.
0003-1569
2
, pp.
167
182
.
Crossref
Search ADS
 
12.
Gasc
,
J.-P.
. 1994, “
Biology of Snakes: Locomotion
,”
Snakes: A Natural History
,
R.
Bauchot
, ed.
Sterling Publishing
New York, pp.
60
75
.
13.
Gasc
,
J.-P.
 1998, private communication, Paris.
14.
Gray
,
J.
. 1946, “
The Mechanism of Locomotion in Snakes
,”
J. Exp. Biol.
0022-0949
23
(
2
), pp.
101
120
.
PubMed
 
15.
Gray
,
J.
. 1950, “
The Kinetics of Locomotion in of the Grass Snake
,”
J. Exp. Biol.
0022-0949
26
, pp.
354
367
.
16.
Gray
,
J.
. 1960,
How Animals Move
,
Cambridge University Press
.
17.
Jayne
,
B. C.
. 1986, “
Kinematics of Terrestrial Snake Locomotion
,”
Copeia
0045-8511
4
, pp.
915
927
.
18.
Jayne
,
B. C.
. 1988, “
Mechanical Behaviour of Snake Skin
,”
J. Zool.
0022-5460
214
, pp.
125
140
.
Crossref
Search ADS
 
19.
Kelley
,
K. C.
,
Arnold
,
S. J.
, and
Gladstone
,
J.
. 1997, “
The Effects of Substrate and Vertebral Number on Locomotion in the Garter Snake Thamnophis Elegans
,”
Funct. Ecol.
11
, pp.
189
198
.
Crossref
Search ADS
 
20.
McNeill
,
A. R.
. 1992,
Exploring Biomechanics: Animals in Motion
,
Scientific American Library
.
21.
Moon
,
B. R.
, and
Gans
,
C.
. 1998, “
Kinematics, Muscular Activity and Propulsion in Gopher Snakes
,”
J. Exp. Biol.
0022-0949
201
(
19
), pp.
2669
2684
.
PubMed
 
22.
Renous
,
S.
. 1994,
Locomotion
,
Dunod
, Paris.
23.
Walter
,
M.
. 1932, “
On the Locomotion of Snakes
,”
Science
0036-8075
76
, pp.
6
9
.
24.
Walter
,
M.
. 1935, “
How Fast Can Snakes Travel?
,”
Copeia
0045-8511
1
, pp.
6
9
.
25.
Walton
,
M.
,
Jayne
,
B. C.
, and
Bennett
,
A. F.
. 1990, “
The energetic cost of limbless locomotion
,”
Science
0036-8075
249
, pp.
524
527
.
Crossref
Search ADS
PubMed
 
26.
Bayraktaroglu
,
Z. Y.
. 2002, “
Locomotion Apode: Application à la Robotique Mobile avec un mécanisme de type Serpent
,” Ph.D. thesis, UVSQ, Versailles, France.
Copyright © 2005
 by American Society of Mechanical Engineers
You do not currently have access to this content.