Abstract

Cable-driven hyper-redundant robots have been adopted in many fields for accessing harsh and confined environments that may be inaccessible or dangerous for humans. The cable actuation strategy makes the robot hardware safer and increases the robot payload reducing its weight. In this paper, a novel design of a fully actuated cable-driven hyper-redundant robot has been proposed. This solution is a pulleyless design that decreases the mechanical complexity, allowing to have a compact arm diameter and avoid tension losses on the cables during the motion. Three different joint designs have been taken into account and experiments have been carried to study their performances.The kinematics for the n-joint robot has been formulated, and two cable routing optimization methods, based on a genetic algorithm, have been proposed and applied to a five-joint robot.

References

1.
Chirikjian
,
G. S.
, and
Burdick
,
J. W.
,
1990
, “
An Obstacle Avoidance Algorithm for Hyper-redundant Manipulators
,”
Proceedings of the IEEE International Conference on Robotics and Automation
,
Cincinnati, OH
,
May 13–18
, pp.
625
631
.
2.
Anderson
,
V. C.
, and
Horn
,
R. C.
,
1970
, “
Tensor Arm Manipulator
,” Feb. 24, U.S. Patent 3,497,083.
3.
Abidi
,
H.
,
Gerboni
,
G.
,
Brancadoro
,
M.
,
Fras
,
J.
,
Diodato
,
A.
,
Cianchetti
,
M.
,
Wurdemann
,
H.
,
Althoefer
,
K.
, and
Menciassi
,
A.
,
2018
, “
Highly Dexterous 2-Module Soft Robot for Intra-organ Navigation in Minimally Invasive Surgery
,”
Int. J. Med. Robot. Comput. Assist. Surg.
,
14
(
1
), pp.
1
9
.
4.
Webster
,
R. J.
,
Okamura
,
A. M.
, and
Cowan
,
N. J.
,
2006
, “
Toward Active Cannulas: Miniature Snake-Like Surgical Robots
,”
Proceedings of the IEEE International Conference on Intelligent Robots and Systems
,
Beijing, China
,
Oct. 9–15
, pp.
2857
2863
.
5.
Burgner
,
J.
,
Swaney
,
P. J.
,
Lathrop
,
R. A.
,
Weaver
,
K. D.
, and
Webster
,
R. J.
,
2013
, “
Debulking From Within: A Robotic Steerable Cannula for Intracerebral Hemorrhage Evacuation
,”
IEEE Trans. Biomed. Eng.
,
60
(
9
), pp.
2567
2575
.
6.
Simaan
,
N.
,
Xu
,
K.
,
Wei
,
W.
,
Kapoor
,
A.
,
Kazanzides
,
P.
,
Taylor
,
R.
, and
Flint
,
P.
,
2009
, “
Design and Integration of a Telerobotic System for Minimally Invasive Surgery of the Throat
,”
Int. J. Robot. Res.
,
28
(
9
), pp.
1134
1153
.
7.
Giri
,
N.
, and
Walker
,
I. D.
,
2011
, “
Three Module Lumped Element Model of a Continuum Arm Section
,”
Proceedings of the IEEE International Conference on Intelligent Robots and Systems
,
San Francisco, CA
,
Sept. 25–30
, pp.
4060
4065
.
8.
Yeshmukhametov
,
A.
,
Koganezawa
,
K.
, and
Yamamoto
,
Y.
,
2018
, “
Design and Kinematics of Cable-Driven Continuum Robot Arm With Universal Joint Backbone
,”
Proceedings of the IEEE International Conference on Robotics and Biomimetics (ROBIO)
,
Kuala Lumpur, Malaysia
,
Dec. 12–15
, pp.
2444
2449
.
9.
Buckingham
,
R.
,
Chitrakaran
,
V.
,
Conkie
,
R.
,
Ferguson
,
G.
,
Graham
,
A.
,
Lazell
,
A.
,
Lichon
,
M.
,
Parry
,
N.
,
Pollard
,
F.
,
Kayani
,
A.
, et al
,
2007
, “
Snake-Arm Robots: A New Approach to Aircraft Assembly
.” Technical Report, SAE Technical Paper.
10.
Buckingham
,
R.
, and
Graham
,
A.
,
2010
, “
Dexterous Manipulators for Nuclear Inspection and Maintenance—Case Study
,”
Proceedings of the IEEE 1st International Conference on Applied Robotics for the Power Industry
,
Montreal, Quebec, Canada
,
Oct. 5–7
, pp.
1
6
.
11.
Ma
,
S.
,
Hirose
,
S.
, and
Yoshinada
,
H.
,
1994
, “
Development of a Hyper-redundant Multijoint Manipulator for Maintenance of Nuclear Reactors
,”
Adv. Robot.
,
9
(
3
), pp.
281
300
.
12.
Buckingham
,
R. O.
, and
Graham
,
A. C.
,
2009
, “
Link Assembly for a Snake Like Robot Arm
,” June 9, U.S. Patent 7,543,518.
13.
Buckingham
,
R.
, and
Graham
,
A.
,
2012
, “
Nuclear Snake-Arm Robots
,”
Ind. Rob.
,
39
(
1
), pp.
6
11
.
14.
Tang
,
L.
,
Wang
,
J.
,
Zheng
,
Y.
,
Gu
,
G.
,
Zhu
,
L.
, and
Zhu
,
X.
,
2017
, “
Design of a Cable-Driven Hyper-Redundant Robot With Experimental Validation
,”
Int. J. Adv. Rob. Syst.
,
14
(
5
), pp.
1
12
.
15.
Xu
,
W.
,
Liu
,
T.
, and
Li
,
Y.
,
2018
, “
Kinematics, Dynamics, and Control of a Cable-Driven Hyper-Redundant Manipulator
,”
IEEE/ASME Trans. Mech.
,
23
(
4
), pp.
1693
1704
.
16.
Horigome
,
A.
,
Yamada
,
H.
,
Endo
,
G.
,
Sen
,
S.
,
Hirose
,
S.
, and
Fukushima
,
E. F.
,
2014
, “
Development of a Coupled Tendon-Driven 3D Multi-Joint Manipulator
,”
Proceedings of the IEEE International Conference on Robotics and Automation
,
Hong Kong, China
,
May 31–June 5
, pp.
5915
5920
.
17.
Endo
,
G.
,
Horigome
,
A.
, and
Takata
,
A.
,
2019
, “
Super Dragon: A 10-m-Long-Coupled Tendon-Driven Articulated Manipulator
,”
IEEE Rob. Autom. Lett.
,
4
(
2
), pp.
934
941
.
18.
Moreyra
,
M. R.
,
2005
, “
Wrist With Decoupled Motion Transmission
,” U.S. Patent 6,969,385.
19.
Kim
,
Y.-J.
,
2017
, “
Anthropomorphic Low-Inertia High-Stiffness Manipulator for High-Speed Safe Interaction
,”
IEEE Trans. Rob.
,
33
(
6
), pp.
1358
1374
.
20.
Salisbury, Jr.
,
J. K.
, and
Townsend
,
W. T.
,
1993
, “
Compact Cable Transmission With Cable Differential
,” U.S. Patent 5,207,114.
21.
Liu
,
Y.
,
Wang
,
J.
, and
Ben-Tzvi
,
P.
,
2019
, “
A Cable Length Invariant Robotic Tail Using a Circular Shape Universal Joint Mechanism
,”
ASME J. Mech. Rob.
,
11
(
5
), p.
051005
.
22.
Dong
,
X.
,
Raffles
,
M.
,
Guzman
,
S. C.
,
Axinte
,
D.
, and
Kell
,
J.
,
2014
, “
Design and Analysis of a Family of Snake Arm Robots Connected by Compliant Joints
,”
Mech. Mach. Theory
,
77
, pp.
73
91
.
23.
Dong
,
X.
,
Axinte
,
D.
,
Palmer
,
D.
,
Cobos
,
S.
,
Raffles
,
M.
,
Rabani
,
A.
, and
Kell
,
J.
,
2017
, “
Development of a Slender Continuum Robotic System for On-Wing Inspection/Repair of Gas Turbine Engines
,”
Rob. Comput. Int. Manuf.
,
44
, pp.
218
229
.
24.
Mustafa
,
S. K.
, and
Agrawal
,
S. K.
,
2011
, “
On the Force-Closure Analysis of N-DOF Cable-Driven Open Chains Based on Reciprocal Screw Theory
,”
IEEE Trans. Rob.
,
28
(
1
), pp.
22
31
.
25.
Bryson
,
J. T.
,
Jin
,
X.
, and
Agrawal
,
S. K.
,
2016
, “
Optimal Design of Cable-Driven Manipulators Using Particle Swarm Optimization
,”
ASME J. Mech. Rob.
,
8
(
4
), p.
041003
.
26.
Ashwin
,
K.
, and
Ghosal
,
A.
,
2019
, “
Profile Estimation of a Cable-Driven Continuum Robot With General Cable Routing
,”
Proceedings of the IFToMM World Congress on Mechanism and Machine Science
,
Krakow, Poland
,
July 15–18
, pp.
1879
1888
.
27.
Poles
,
S.
,
2003
, “
MOGA-II: An Improved Multi-Objective Genetic Algorithm
,”
Estecotech. Rep.
,
6
, p.
1741310
.
28.
Ludovico
,
D.
,
Guardiani
,
P.
,
Pistone
,
A.
,
Lee
,
J.
,
Cannella
,
F.
,
Caldwell
,
D. G.
, and
Canali
,
C.
,
2020
, “
Modeling Cable-Driven Joint Dynamics and Friction: A Bond-Graph Approach
,”
Proceedings of the IEEE International Conference on Intelligent Robots and Systems
,
Las Vegas, NV
,
Oct. 25–29
, pp.
7285
7291
.
29.
Khalil
,
W.
, and
Dombre
,
E.
,
2004
,
Modeling, Identification and Control of Robots
,
Butterworth-Heinemann
,
Oxford
.
30.
Webster III
,
R. J.
, and
Jones
,
B. A.
,
2010
, “
Design and Kinematic Modeling of Constant Curvature Continuum Robots: A Review
,”
Int. J. Rob. Res.
,
29
(
13
), pp.
1661
1683
.
31.
Siciliano
,
B.
,
Sciavicco
,
L.
,
Villani
,
L.
, and
Oriolo
,
G.
,
2010
,
Robotics: Modelling, Planning and Control
,
Springer Science & Business Media
,
Berlin
.
32.
Poles
,
S.
,
2003
, “
The Simplex Method
,”
Estecotech. Rep.
, 2003–005.
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