Parallel robots:Espace de travail

99 références sur: Espace de travail

References

1: Agrawal S.K. Workspace boundaries of in-parallel manipulator systems. Int. J. of Robotics and Automation, 7(2):94-99, 1992. Keywords: workspace.
2: Agrawal S.K. Workspace boundaries of in-parallel manipulator systems. In ICAR, pages 1147-1152, Pise, 19-22 Juin 1991 Keywords: workspace.
3: Albus J., Bostelman R., et Dagalakis N. The NIST SPIDER, a robot crane. Journal of research of the National Institute of Standards and Technology, 97(3):373-385, Mai 1992 Keywords: applications,workspace,wire robot,mechanical architecture,6 dof robot.
4: Albus J., Bostelman R., et Dagalakis N. The NIST ROBOCRANE. J. of Robotic Systems, 10(5):709-724, Juillet 1993 Keywords: applications,workspace,wire robot,6 dof robot.
5: Alizade R.I., Tagiyev N.R., et Duffy J. A forward and reverse displacement analysis of an in-parallel spherical manipulator. Mechanism and Machine Theory, 29(1):125-137, Janvier 1994 Keywords: mechanical architecture,kinematics,spherical robot,workspace,3 dof robot.
6: Arai T., Larsonneur R., et Jaya Y.M. Calibration and basic motion of a micro-hand module. In Int. Conf. on Indus. Electronics, Control and Instrumentation (IECON), pages 1660-1665, Hawai, 15-19 Novembre 1993 Keywords: micro robot,mechanical architecture,hardware,calibration,workspace.
7: Arun V. et al. Determination of the workspace of the 3-dof double-octahedral variable-geometry-truss manipulator. In 22nd Biennial Mechanisms Conf., pages 493-500, Scottsdale, 13-16 Septembre 1992 Keywords: workspace,truss,3 dof robot,singularity,mechanical architecture,inverse kinematics.
8: Behi F. Kinematic analysis for a six-degree-of-freedom 3-PRPS parallel mechanism. IEEE J. of Robotics and Automation, 4(5):561-565, Octobre 1988 Keywords: mobility,kinematics,workspace,singularity.
9: Bénéa R. Contribution à l'étude des robots pleinement parallèles de type 6R-RR-S. Thèse de doctorat, Université de Savoie, Annecy, 16 Décembre 1996 Keywords: mechanical architecture,workspace,singularity,dynamics,statics,mobility.
10: Berthomieu T. Étude d'un micro-manipulateur parallèle et de son couplage avec un robot porteur. Thèse de doctorat, ENSTAE, Toulouse, 24 Janvier 1989 Keywords: kinematics,dynamics,workspace,mechanical architecture,actuators,6 dof robot,pneumatic,hardware,force feedback,micro-macro robot,singularity,force sensor,orientation workspace.
11: Bessala J. Détermination des expressions analytiques d'espaces de travail des systèmes mécaniques, et applications. Thèse de doctorat, Université Paris 6, 11 Septembre 1995 Keywords: workspace,optimal design.
12: Bessala J., Bidaud P., et Ben Ouezdou F. Analysis of complex mechanical systems, design, motion, planning, optimal transmissions. In IMACS Symp. on System Analysis and Simulation, 1995. Keywords: workspace,statics,optimal design.
13: Bessala J., Bidaud P., et Ben Ouezdou F. Analysis of complex mechanical systems through geometrical reachable workspace. In IASTED Int. Conf. on Robotics and Manufacturing, Cancun, 14-17 Juin 1995 Keywords: workspace,optimal design.
14: Bulca F., Angeles J., et Zsombor-Murray P.J. On the workspace analysis of a spherical platform mechanisms. In World Automation Congress, volume 3, pages 131-136, Montpellier, 28-30 Mai 1996 Keywords: workspace.
15: Claudinon B. et Lievre J. Test facility for rendez-vous and docking. In 36th Congress of the IAF, pages 1-6, Stockholm, 7-12 Octobre 1985 Keywords: simulator,mechanical architecture,optimal design,design,force sensor,workspace,applications.
16: Clavel R. Conception d'un robot parallèle rapide à 4 degrés de liberté. Thèse de doctorat, EPFL, Lausanne, 1991. 925. Keywords: mechanical architecture,kinematics,singularity,4 dof robot,workspace,kinetics,hardware.
17: Clavel R. DELTA, a fast robot with parallel geometry. In 18th Int. Symp. on Industrial Robot, pages 91-100, Lausanne, 26-28 Avril 1988 Keywords: mechanical architecture,workspace,singularity,3 dof robot.
18: Cleary K. et Arai T. A prototype parallel manipulator: kinematics construction, software, workspace results and singularity analysis. In IEEE Int. Conf. on Robotics and Automation, pages 566-571, Sacramento, 11-14 Avril 1991 Keywords: mechanical architecture,6 dof robot,workspace,singularity,hardware.
19: Dafaoui M., Amirat Y., Pontnau J., et Francois C. Manipulateur parallèle à six degrés de liberté: modèles et volume de travail. Revue d'Automatique et de Productique Appliquée, 7(2):195-220, 1994. Keywords: kinematics,jacobian,workspace.
20: Dorsey J.T., Sutter T.R., et Wu K.C. Structurally adaptive space crane concept for assembling space systems on orbit. Rapport de Recherche TP-3307, NASA Research Center, Langley, Novembre 1992 Keywords: truss,crane,applications,statics,workspace,dynamics,vibration,hardware,control.
21: Dubowsky S. et al. The design and implementation of a laboratory test bed for space robotics: the VES mod. II. In ASME Design Automation Conf., pages 99-108, Minneapolis, 11-14 Septembre 1994 Keywords: applications,mechanical architecture,hardware,workspace,stiffness,control.
22: Feng G. et al. A physical model of the solution space and the atlas of the reachable workspace for 2-dof parallel planar manipulators. Mechanism and Machine Theory, 31(2):173-184, Février 1996 Keywords: 2 dof robot,mobility,planar robot,workspace.
23: Feng G. et al. Physical model of the solution space of 3-dof parallel planar manipulators. Mechanism and Machine Theory, 31(2):161-171, Février 1996 Keywords: 3 dof robot,planar robot,mobility,workspace.
24: Ferraresi C., Montacchini G., et Sorli M. Workspace and dexterity evaluation of 6 d.o.f. spatial mechanisms. In 9th World Congress on the Theory of Machines and Mechanisms, pages 57-61, Milan, 30 Août-2 Septembre, 1995 Keywords: workspace.
25: Fichter E.F. A Stewart platform based manipulator: general theory and practical construction. Int. J. of Robotics Research, 5(2):157-181, Août 1986 Keywords: mechanical architecture,6 dof robot,workspace,kinematics,hardware.
26: Fichter E.F. et McDowell E.D. A novel design for a robot arm. In Proc. Int. Computer Technical Conf., pages 250-255, San Francisco, 1980. Keywords: mechanical architecture,workspace,singularity.
27: Gosselin C. Kinematic analysis optimization and programming of parallel robotic manipulators. Thèse de doctorat, McGill University, Montréal, 15 Juin 1988 Keywords: mechanical architecture,optimal design,planar robot,kinematics,spherical robot,workspace.
28: Gosselin C. Determination of the workspace of 6-dof parallel manipulators. In ASME Design Automation Conf., pages 321-326, Montréal, 17-20 Septembre 1989 Keywords: workspace.
29: Gosselin C. Determination of the workspace of 6-dof parallel manipulators. ASME J. of Mechanical Design, 112(3):331-336, Septembre 1990 Keywords: workspace.
30: Gosselin C. et Angeles J. The optimum kinematic design of a spherical three-degree-of-freedom parallel manipulator. J. of Mechanisms, Transmissions and Automation in Design, 111(2):202-207, 1989. Keywords: spherical robot,workspace,isotropy,singularity,design,3 dof robot,wrist.
31: Gosselin C. et Hamel J.-F. Development and experimentation of a fast three-degree-of-freedom spherical parallel manipulator. In ISRAM, pages 229-234, Hawaï, 14-18 Août 1994 Keywords: spherical robot,isotropy,workspace,optimal design,mechanical architecture,3 dof robot,wrist.
32: Gosselin C., Lavoie E., et Toutant P. An efficient algorithm for the graphical representation of the three-dimensional workspace of parallel manipulators. In 22nd Biennial Mechanisms Conf., pages 323-328, Scottsdale, 13-16 Septembre 1992 Keywords: workspace.
33: Gosselin C., Lemieux S., et Merlet J-P. A new architecture of planar three-degree-of-freedom parallel manipulator. In IEEE Int. Conf. on Robotics and Automation, pages 3738-3743, Minneapolis, 24-26 Avril 1996 Keywords: planar robot,mechanical architecture,kinematics,workspace.
34: Gosselin C., Perreault L., et Vaillancourt C. Simulation and computer-aided kinematic design of three-degree-of-freedom spherical parallel manipulators. J. of Robotic Systems, 12(12):857-869, 1995. Keywords: kinematics,3 dof robot,spherical robot,workspace,design.
35: Gosselin C., Perreault T., et Vaillancourt C. Smaps: a computer-aided design package for the analysis and optimization of a spherical parallel manipulators. In ISRAM, pages 115-120, Hawaï, 14-18 Août 1994 Keywords: spherical robot,optimal design,mechanical architecture,CAD,workspace,singularity,design,3 dof robot,wrist.
36: Goudali A., Lallemand J-P., et Zeghloul S. Espace de travail de la nouvelle structure 2-delta. Revue d'Automatique et Productique Appliquée, 8(2-3):205-210, 1995. Keywords: workspace.
37: Goudali A., Lallemand J-P., et Zeghloul S. Modeling of the 2-Delta 6-dof decoupled parallel robot. In 6th ISRAM, pages 243-248, Montpellier, 28-30 Mai 1996 Keywords: mechanical architecture,inverse kinematics,workspace.
38: Hashimoto M. et Imamura Y. Design and characteristics of a parallel link compliant wrist. In IEEE Int. Conf. on Robotics and Automation, pages 2457-2462, San Diego, 8-13 Mai 1994 Keywords: inverse kinematics,workspace,hardware,stiffness,statics,passive compliance.
39: Haugh E.J., Adkins F.A., et Luh C.M. Domain of operation and interference for bodies in mechanisms and manipulators. In J-P. Merlet B. Ravani, editor, Computational Kinematics, pages 193-202. Kluwer, 1995. Keywords: workspace.
40: Homma K. et Arai T. Upper limb motion assist system with parallel mechanisms. In 2nd Japan-France Congress on Mechatronics, pages 388-391, Takamatsu, 1-3 Novembre 1994 Keywords: wire robot,applications,statics,workspace.
41: Husty M.L. On the workspace of planar three-legged platforms. In World Automation Congress, volume 3, pages 339-344, Montpellier, 28-30 Mai 1996 Keywords: planar robot,workspace.
42: Ji Z. Analysis of design parameters in platform manipulatros. ASME J. of Mechanical Design, 118:526-531, Décembre 1996 Keywords: workspace,design.
43: Jo D.Y. et Haug E.J. Workspace analysis of closed loop mechanisms with unilateral constraints. In ASME Design Automation Conf., pages 53-60, Montréal, 17-20 Septembre 1989 Keywords: workspace.
44: Kassner D.J. Kinematics analysis of a planar three-degree-of-freedom platform-type robot manipulator. Master's thesis, Purdue University, Purdue, Décembre 1990 Keywords: planar robot,kinematics,singularity,workspace,maximal workspace.
45: Kim D.i., Ching W.K., et Youm Y. Geometrical approach for the workspace of 6-dof parallel manipulators. In IEEE Int. Conf. on Robotics and Automation, pages 2986-2991, Albuquerque, 21-28 Avril 1997 Keywords: workspace.
46: Kokkinis T. et Millies P. A parallel robot-arm regional structure with actuational redundancy. Mechanism and Machine Theory, 26(6):629-641, 1991. Keywords: mechanical architecture,workspace,jacobian,singularity,statics,redundant robot.
47: Kumar V. Characterization of workspaces of parallel manipulators. In ASME Proc. of the 21th Biennial Mechanisms Conf., pages 321-329, Chicago, 16-19 Septembre 1990 Keywords: workspace,planar robot,maximal workspace.
48: Kumar V. Characterization of workspaces of parallel manipulators. ASME J. of Mechanical Design, 114:368-375, Septembre 1992 Keywords: workspace,planar robot.
49: Landsberger S.E. et Shanmugasundram A.P. Workspace of parallel link crane. In IMACS/SICE Int. Symp. on Robotics, Mechatronics, and Manufacturing Systems, pages 479-486, Kobe, 16-20 Septembre 1992 Keywords: workspace.
50: Liu K., Fitzgerald M.K., et Lewis F. Some issues about modeling of the Stewart platform. In 2nd Int. Symp. on Implicit and Robust systems, Warsaw, 1991. Keywords: kinematics,workspace.
51: Liu K., Fitzgerald M.K., et Lewis F. Solution of nonlinear kinematics of a parallel-link constrained Stewart platform manipulator. Circuits, Systems, and Signal Processing, 13(2-3):167-183, 1994. Keywords: kinematics,workspace.
52: Liu K., Fitzgerald M.K., et Lewis F. Kinematic analysis of a Stewart platform manipulator. IEEE Trans. on Industrial Electronics, 40(2):282-293, Avril 1993 Keywords: kinematics,workspace.
53: Luh C.M., Adkins F.A., Haugh E.J., et Qiu C.C. Working capability analysis of Stewart platforms. J. of Mechanical Design, 118(2):221-227, Juin 1996 Keywords: workspace.
54: Masory O. et Wang J. Workspace evaluation of Stewart platforms. In 22nd Biennial Mechanisms Conf., pages 337-346, Scottsdale, 13-16 Septembre 1992 Keywords: workspace,optimal design.
55: McCloy D. Some comparisons of serial-driven and parallel driven manipulators. Robotica, 8:355-362, 1990. Keywords: 2 dof robot,workspace,statics,stiffness.
56: Merlet J-P. Les Robots parallèles. Hermès, Paris, 1990.
57: Merlet J-P. Designing a parallel robot for a specific workspace. In J-P. Merlet B. Ravani, editor, Computational Kinematics, pages 203-212. Kluwer, 1995. Keywords: workspace,design.
58: Merlet J-P. Determination of the orientation workspace of parallel manipulators. Journal of Intelligent and Robotic Systems, 13:143-160, 1995. Keywords: orientation workspace.
59: Merlet J-P. Les Robots parallèles. Hermès, Paris, 1997.
60: Merlet J-P. Orientation workspace of a parallel manipulator with a fixed point. In ICAR, pages 141-146, Tokyo, 1-2 Novembre 1993 Keywords: workspace,orientation workspace.
61: Merlet J-P. Workspace-oriented methodology for designing a parallel manipulator. In IDMME, Nantes, 15-17 Avril 1996 Keywords: workspace,design.
62: Merlet J-P. Les robots parallèles, 21 Juin 1993 Habilitation à diriger les recherches.
63: Merlet J-P. Workspace-oriented methodology for designing a parallel manipulator. In IEEE Int. Conf. on Robotics and Automation, pages 3726-3731, Minneapolis, 24-26 Avril 1996 Keywords: workspace,design.
64: Merlet J-P. Designing a parallel manipulator for a specific workspace. In ISRAM, pages 441-446, Montpellier, 28-30 Mai 1996 Keywords: design,workspace.
65: Merlet J-P. Geometrical determination of the workspace of a constrained parallel manipulator. In ARK, pages 326-329, Ferrare, 7-9 Septembre 1992 Keywords: workspace.
66: Merlet J-P. Manipulateurs parallèles, 5eme partie : Détermination de l'espace de travail à orientation constante. Rapport de Recherche 1645, INRIA, Mars 1992 GET IT!. Keywords: workspace.
67: Merlet J-P. Manipulateurs parallèles, 6eme partie : Détermination des espaces de travail en orientation. Rapport de Recherche 1921, INRIA, Mai 1993 GET IT!. Keywords: orientation workspace.
68: Merlet J-P. Manipulateurs parallèles, 7eme partie : Vérification et planification de trajectoire dans l'espace de travail. Rapport de Recherche 1940, INRIA, Juin 1993 GET IT!. Keywords: trajectory planning,workspace.
69: Merlet J-P. Détermination de l'espace de travail d'un robot parallèle pour une orientation constante. Mechanism and Machine Theory, 29(8):1099-1113, Novembre 1994 Keywords: workspace.
70: Merlet J-P. Designing a parallel robot for a specific workspace. Rapport de Recherche 2527, INRIA, Avril 1995 GET IT!. Keywords: workspace,design.
71: Merlet J-P. Designing a parallel manipulator for a specific workspace. Int. J. of Robotics Research, 16(4):545-556, Août 1997 Keywords: design,workspace.
72: Merlet J-P., Gosselin C., et Mouly N. Workspaces of planar parallel manipulators. In 11th RoManSy, pages 37-44, Udine, 1-4 Juillet 1996 Keywords: planar robot,workspace.
73: Merlet J-P. et Mouly N. Espaces de travail et planification de trajectoire des robots parallèles plans. Rapport de Recherche 2291, INRIA, Juillet 1994 GET IT!. Keywords: planar robot,trajectory planning,orientation workspace,workspace.
74: Mimura N. et Y. Funahashi. A new analytical system applying 6 dof parallel link manipulator for evaluating motion sensation. In IEEE Int. Conf. on Robotics and Automation, pages 227-233, Nagoya, 25-27 Mai 1995 Keywords: forward kinematics with redundant sensors,mechanical architecture,hardware,orientation workspace,simulator.
75: Ming A. et Higuchi T. Study on multiple degree of freedom positioning mechanisms using wires, Part 2, Development of a planar completely restrained positioning mechanism. Int. J. Japan Soc. Prec. Eng., 28(3):235-242, Septembre 1994 Keywords: wire robot,mechanical architecture,control,planar robot,applications,hardware,redundant robot,inverse kinematics,workspace.
76: Mitova T. et Vatkitchev A. Analysis of a closed space mechanism with three degree of mobility. In XI COBEM, Rio de Janeiro, 1991. Keywords: mechanical architecture,workspace.
77: Mouly N. Développement d'une famille de robots parallèles à motorisation électrique. Thèse de doctorat, École des Mines de Paris, Sophia, 11 Mai 1993 Keywords: kinematics,workspace,mechanical architecture,6 dof robot,applications,actuators.
78: Murray A.P., Pierrot F., Dauchez P., et J.M. McCarthy. On the design of parallel manipulators for a prescribed workspace: a planar quaternion approach. In J. Lenarcic V. Parenti-Castelli, editor, Recent Advances in Robot Kinematics, pages 349-357. Kluwer, 1996. Keywords: planar robot,design,workspace.
79: Nguyen C.C. et Pooran F.J. Kinematic analysis and workspace of a 6 d.o.f. CKCM robot end-effector. Journal of Mechanical Working Technology, 20:283-294, 1989. Keywords: kinematics,workspace.
80: Ojala P., Arai T., et Tanikawa T. Kinematic analysis and motion control of a redundant micro manipulator. In 2nd Japan-France Congress on Mechatronics, pages 473-476, Takamatsu, 1-3 Novembre 1994 Keywords: micro robot,mechanical architecture,redundant robot,control,hardware,workspace,calibration.
81: Ojala P., Arai T., Tanikawa T., et Koivo H. Motion optimization and control of the 7 d.o.f micro manipulator. In Scandinavian Symposium on Robotics, pages 132-136, 4-6 Octobre 1994 Keywords: micro robot,mechanical architecture,redundant robot,control,calibration,workspace.
82: Ouerfelli M. et Kumar V. Optimization of a spherical five bar parallel drive linkage. ASME J. of Mechanical Design, 116:166-173, Mars 1994 Keywords: mechanical architecture,3 dof robot,workspace,singularity,dynamics,kinematics.
83: Pasqui-Boutard V. Méthode systématique pour la modélisation et l'analyse cinématique des mécanismes complexes. Thèse de doctorat, Université Pierre et Marie Curie, Paris, 29 Août 1994 Keywords: kinematics,singularity,workspace,mechanism theory.
84: Pennock G.R. et Kassner D.J. The workspace of a general geometry planar three degree of freedom platform manipulator. In ASME Design Automation Conf., pages 537-544, Miami, 22-25 Septembre 1991 Keywords: workspace,planar robot.
85: Pennock G.R. et Kassner D.J. The workspace of a general geometry planar three degree of freedom platform manipulator. ASME J. of Mechanical Design, 115:269-276, Juin 1993 Keywords: workspace,planar robot.
86: Pooran F.J. Dynamics and control of robot manipulators with closed-kinematic chain mechanism. Thèse de doctorat, The Catholic University of America, Washington D.C., 1989. Keywords: dynamics,workspace,maximal workspace.
87: Rao A.C. Platform-type planar robots: topology-based selection for rigidity and work space. J. of Robotic Systems, 14(5):355-364, 1997. Keywords: design theory,planar robot,workspace.
88: Ridgeway S.C., Crane C.M., et Duffy J. A forward analysis of two degree of freedom parallel manipulator. In J. Lenarcic V. Parenti-Castelli, editor, Recent Advances in Robot Kinematics, pages 431-440. Kluwer, 1996. Keywords: hybrid robot,planar robot,forward kinematics,workspace.
89: Romdhane L. Orientation workspace of fully parallel mechanisms. Eur. J. of Mechanics, 13(4):541-553, 1994. Keywords: orientation workspace.
90: Sorli M. et Ceccarelli M. On the workspace of a 6 d.o.f. platform with three articulated double-parallelograms. In ICAR, pages 147-152, Tokyo, 1-2 Novembre 1993 Keywords: forward kinematics,workspace.
91: Sternheim F. Tridimensionnal computer simulation of a parallel robot. Results for the Delta 4 machine. In 18th Int. Symp. on Industrial Robot, pages 333-340, Lausanne, 26-28 Avril 1988 Keywords: mechanical architecture,CAD,optimal design,design,workspace.
92: Stocco L. et Salcudean T. A coarse-fine approach to force-reflecting hand controller design. In IEEE Int. Conf. on Robotics and Automation, pages 404-410, Minneapolis, 24-26 Avril 1996 Keywords: 5 dof robot,mechanical architecture,hybrid robot,workspace,actuators.
93: Tahmasebi F. et Tsai L.-W. Workspace and singularity analysis of a novel six-dof parallel minimanipulator. J. of Applied Mechanisms and Robotics, 1(2):31-40, Mars 1994 Keywords: mechanical architecture,6 dof robot,workspace,singularity.
94: Takeda Y., Funabashi H., et Sasaki Y. Analysis of working space and motion transmissibility of spherical in-parallel actuated mechanism. In ICAR, pages 165-170, Tokyo, 1-2 Novembre 1993 Keywords: mechanical architecture,statics,spherical robot,workspace.
95: Tanaka M., Seguchi Y., et al. Kinematics of adaptive truss permitting nodal offset (configuration and workspace reach). In First Joint USA/Japan Conf. on adaptive structure, pages 691-714, Maui, Hawaii, 13-15 Novembre 1990 Keywords: truss,workspace.
96: Weng T-C., Sandor G.N., et Xu Y. On the workspace of closed-loop manipulators with ground mounted rotary-linear actuators and finite size platform. In ASME Design and Automation Conf., pages 55-61, Boston, 27-30 Septembre 1987 Keywords: workspace.
97: Williams II R.L. et Reinholtz C.F. Closed-form workspace determination and optimization for parallel robot mechanisms. In ASME Proc. of the the 20th Biennial Mechanisms Conf., pages 341-351, Kissimmee, Orlando, 25-27 Septembre 1988 Keywords: workspace,planar robot.
98: Yang D.C.H. et Lee T.W. Feasibility study of a platform type of robotic manipulator from a kinematic viewpoint. J. of Mechanisms, Transmissions and Automation in Design, 106:191-198, Juin 1984 Keywords: mobility,mechanical architecture,kinematics,workspace.
99: Yang P-H., Waldron J.K., et Orin D.E. Kinematics of a three degree-of-freedom motion platform for a low cost driving simulator. In J. Lenarcic V. Parenti-Castelli, editor, Recent Advances in Robot Kinematics, pages 89-98. Kluwer, 1996. Keywords: mechanical architecture,applications,kinematics,singularity,workspace.

J-P. Merlet