A configuration of a mechanical linkage is defined as regular if there exists a subset of actuators with their corresponding Jacobian columns spans the gripper's velocity space. All other configurations are defined in the literature as singular configurations. Consider mechanisms with grippers' velocity space . We focus our attention on the case where m Jacobian columns of such mechanism span , while all the rest are linearly dependent. These are obviously an undesirable configuration, although formally they are defined as regular. We define an optimal-regular configuration as such that any subset of m actuators spans an m-dimensional velocity space. Since this densely constraints the work space, a more relaxed definition is needed. We therefore introduce the notion of k-singularity of a redundant mechanism which means that rigidifying k actuators will result in an optimal-regularity. We introduce an efficient algorithm to detect a k-singularity, give some examples for cases where m = 2, 3, and demonstrate our algorithm efficiency.
Issue Section:
Research Papers
References
1.
Chirikjian
, G. S.
, and Burdick
, J. W.
, 1995
, “The Kinematics of Hyper-Redundant Robot Locomotion
,” IEEE Trans. Rob. Autom.
, 11
(6
), pp. 781
–793
.2.
Shvalb
, N.
, Moshe
, B. B.
, and Medina
, O.
, 2013, “A Real-Time Motion Planning Algorithm for a Hyper-Redundant Set of Mechanisms
,” Robotica
, 31
(8
), pp. 1327–1335.3.
Sujan
, V. A.
, and Dubowsky
, S.
, 2004
, “Design of a Lightweight Hyper-Redundant Deployable Binary Manipulator
,” ASME J. Mech. Des.
, 126
(1
), pp. 29
–39
.4.
Ota
, T.
, Degani
, A.
, Zubiate
, B.
, Wolf
, A.
, Choset
, H.
, Schwartzman
, D.
, and Zenati
, M. A.
, 2006
, “Epicardial Atrial Ablation Using a Novel Articulated Robotic Medical Probe Via a Percutaneous Subxiphoid Approach
,” Innovations (Philadelphia, PA)
, 1
(6
), pp. 335
–340
.5.
Medina
, O.
, Shapiro
, A.
, and Shvalb
, N.
, 2015
, “Motion Planning for an Actuated Flexible Polyhedron Manifold
,” Adv. Rob.
, 29
(18
), pp. 1195
–1203
.6.
Medina
, O.
, Shapiro
, A.
, and Shvalb
, N.
, 2015
, “Kinematics for an Actuated Flexible n-Manifold
,” ASME J. Mech. Rob.
, 8
(2
), p. 021009
.7.
Craig
, J. J.
, 2005
, Introduction to Robotics: Mechanics and Control
, Vol. 3
, Pearson Prentice Hall
, Upper Saddle River, NJ
.8.
de Wit
, C. C.
, Siciliano
, B.
, and Bastin
, G.
, 2012
, Theory of Robot Control
, Springer Science & Business Media
, Berlin
.9.
Siciliano
, B.
, 1990
, “Kinematic Control of Redundant Robot Manipulators: A Tutorial
,” J. Intell. Rob. Syst.
, 3
(3
), pp. 201
–212
.10.
Sciavicco
, L.
, and Siciliano
, B.
, 2012
, Modelling and Control of Robot Manipulators
, Springer Science and Business Media
, Berlin
.11.
Gosselin
, C.
, and Angeles
, J.
, 1990
, “Singularity Analysis of Closed-Loop Kinematic Chains
,” IEEE Trans. Rob. Autom.
, 6
(3
), pp. 281
–290
.12.
Srivatsan
, R. A.
, Bandyopadhyay
, S.
, and Ghosal
, A.
, 2013
, “Analysis of the Degrees-of-Freedom of Spatial Parallel Manipulators in Regular and Singular Configurations
,” Mech. Mach. Theory
, 69
, pp. 127
–141
.13.
Shvalb
, N.
, Shoham
, M.
, Bamberger
, H.
, and Blanc
, D.
, 2009
, “Topological and Kinematic Singularities for a Class of Parallel Mechanisms
,” Math. Probl. Eng.
, 2009
, p. 249349
.14.
Liu
, G.
, Lou
, Y.
, and Li
, Z.
, 2003
, “Singularities of Parallel Manipulators: A Geometric Treatment
,” IEEE Trans. Rob. Autom.
, 19
(4
), pp. 579
–594
.15.
Tsai
, L.-W.
, 1996
, “Kinematics of a Three-DOF Platform With Three Extensible Limbs
,” Recent Advances in Robot Kinematics
, Springer
, Berlin
, pp. 401
–410
.16.
Zlatanov
, D.
, Fenton
, R.
, and Benhabib
, B.
, 1995
, “A Unifying Framework for Classification and Interpretation of Mechanism Singularities
,” ASME J. Mech. Des.
, 117
(4
), pp. 566
–572
.17.
Zlatanov
, D.
, Bonev
, I. A.
, and Gosselin
, C. M.
, 2002, “Constraint Singularities of Parallel Mechanisms
,” IEEE International Conference on Robotics and Automation
(ICRA
), Washington, DC, May 11–15, pp. 496
–502
.18.
Zlatanov
, D. S.
, Fenton
, R. G.
, and Benhabib
, B.
, 1998
, “Classification and Interpretation of the Singularities of Redundant Mechanisms
,” ASME
Paper No. DETC98/MECH-5896.19.
Conconi
, M.
, and Carricato
, M.
, 2009
, “A New Assessment of Singularities of Parallel Kinematic Chains
,” IEEE Trans. Rob.
, 25
(4
), pp. 757
–770
.20.
Villard
, G.
, 2003
, “Computation of the Inverse and Determinant of a Matrix
,” Algorithms Seminar
, INRIA
, Le Chesnay, France, pp. 29
–32
.21.
Muller
, M. E.
, 1959
, “A Note on a Method for Generating Points Uniformly on n-Dimensional Spheres
,” Commun. ACM
, 2
(4
), pp. 19
–20
.22.
Marsaglia
, G.
, 1972
, “Choosing a Point From the Surface of a Sphere
,” Ann. Math. Stat.
, 43
(2
), pp. 645
–646
.23.
Hunt
, K. H.
, 1978
, Kinematic Geometry of Mechanisms
, Vol. 7
, Oxford University Press
, Oxford, UK
.24.
Blanc
, D.
, and Shvalb
, N.
, 2012
, “Generic Singular Configurations of Linkages
,” Topol. Appl.
, 159
(3
), pp. 877
–890
.25.
West
, D. B.
, 2001
, Introduction to Graph Theory
, 2nd ed., Prentice Hall, Upper Saddle River, NJ.26.
Wang
, X.
, and Hu
, Y.
, 2009
, “Reordering and Partitioning Jacobian Matrices Using Graph-Spectral Method
,” Intelligent Robotics and Applications
, Springer, Berlin, pp. 696
–705
.27.
Garey
, M. R.
, and Johnson
, D. S.
, 1979
, Computers and Intractability: A Guide to the Theory of NP-Completeness
, W. H. Freeman & Co.
, New York
.Copyright © 2017 by ASME
You do not currently have access to this content.
