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1: Agrawal S.K., Desmier G., et Li S.
Fabrication and analysis of a novel 3 dof parallel wrist mechanism.
ASME J. of Mechanical Design, 117(2):343-345, Juin 1995
2: Ahn C. et al.
High-tilt parallel positioning mechanism development and cutter path simulation for laser micro-machining.
Computer-aided design, 39(3):218-228, Mars 2007
3: Alizade R.I. et Bayram C.
Structural synthesis of parallel manipulators.
Mechanism and Machine Theory, 39(8):857-870, Août 2004
4: Alizade R.I. et Tagiyev N.R.
A forward and reverse displacement analysis of a 6-dof in-parallel manipulator.
Mechanism and Machine Theory, 29(1):115-124, Janvier 1994
5: Ancunta A., Company O., et Pierrot F.
Modeling and optimization of Quadriglide, a Schönflies motion generator module for 5-axis milling machine-tools.
In IEEE Int. Conf. on Robotics and Automation, pages 2174-2179, Kobe, 14-16 Mai 2009
6: Arata J. et al.
Development of a haptic device DELTA-4 using parallel link mechanism.
In IEEE Int. Conf. on Robotics and Automation, pages 294-300, Kobe, 14-16 Mai 2009
7: Artigue F., Amirat M.Y., et Pontnau J.
Isoelastic behavior of parallel robots.
Robotica, 7(4):323-325, 1989.
8: 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
9: Austad A.
Arm device, 4 Juin 1987
IPN ${\rm n^\circ}$ WO 87,03239.
10: Bai S. et Hansen M.R.
Modelling of a spherical robotic wrist with euler parameters.
In 12th IFToMM World Congress on the Theory of Machines and Mechanisms, Besancon, 18-21 Juin 2007
11: Bamberger H. et Shoham M.
A new configuration of a six degrees-of-freedom parallel robot for mems fabrication.
In IEEE Int. Conf. on Robotics and Automation, pages 4545-4550, New Orleans, 28-30 Avril 2004
12: 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
13: Behzadipour S. et Khajepour A.
Design of reduced dof parallel cable-based robots.
Mechanism and Machine Theory, 39(10):1051-1065, Octobre 2004
14: Beji L.
Modélisation, identification et commande d'un robot parallèle.
Thèse de doctorat, Université Evry Val d'Essonne, Evry, 1997.
15: Bonev I. et Gosselin C.M.
Geometric algorithms for the computation of the constant-orientation workspace and singularity surfaces of a special 6-RUS parallel manipulator.
In ASME Design Engineering Technical Conference, Montréal, 29 Septembre-2 Octobre, 2002
16: Brodsky V., Glozman D., et Shoham M.
Double circular-triangular six-degree-of-freedom parallel robot.
In ARK, pages 155-164, Strobl, 29 Juin-4 Juillet, 1998
17: Brogardh T., Hanssen S., et Hovland G.
Application-oriented development of parallel kinematic manipulators with large workspace.
In 2nd Int. Colloquium, Collaborative Research Centre 562, pages 153-170, Braunschweig, 10-11 Mai 2005
18: Bruyninckx H.
The 321-hexa: a fully parallel manipulator with closed-form position and velocity kinematics.
In IEEE Int. Conf. on Robotics and Automation, pages 2657-2662, Albuquerque, 21-28 Avril 1997
19: Byun Y.K. et Cho H-S.
Analysis of a novel 6-dof,3-PPSP parallel manipulator.
Int. J. of Robotics Research, 16(6):859-872, Décembre 1997
20: Callegari M. et Marzetti P.
Kinematics of a family of parallel translating mechanisms.
In RAAD, Cassino, 7-10 Mai 2003
21: Callegari M., Palpacelli M., et Scarponi M.
Kinematics of the 3-CPU parallel manipulator assembled for motions of pure translation.
In IEEE Int. Conf. on Robotics and Automation, pages 4031-4036, Barcelona, 19-22 Avril 2005
22: Carricato M. et Parenti-Castelli V.
A family of 3-DOF translational parallel manipulators.
ASME J. of Mechanical Design, 125(2):302-307, Juin 2003
23: Ceccarelli M.
A new 3 d.o.f. spatial parallel mechanism.
Mechanism and Machine Theory, 32(8):896-902, 1997.
24: Chen W-J. et al.
A novel 4-dof parallel manipulator and its kinematic modelling.
In IEEE Int. Conf. on Robotics and Automation, pages 3350-3355, Seoul, 23-25 Mai 2001
25: Chen W-J. et al.
A 2T-2R, 4-dof parallel manipulator.
In ASME Design Engineering Technical Conference, Montréal, 29 Septembre-2 Octobre, 2002
26: Cheng H.H.
Real-time manipulation of a hybrid serial-and-parallel driven redundant industrial manipulator.
ASME J. of Dynamic Systems, Measurement and Control, 116(4):687-701, Décembre 1994
27: Chung J-H., Yi B-J., et Oh S.
Design of a new spatial 3-dof parallel mechanism with application to a PDP TV mounting device.
In IEEE Int. Conf. on Intelligent Robots and Systems (IROS), pages 3999-4006, San Diego, 22-26 Septembre 2007
28: Clavel R. et al.
A new parallel kinematics able to machine 5 sides of a cube-shaped object: Hita STT.
In 1st Int. Colloquium, Collaborative Research Centre 562, pages 107-118, Braunschweig, 29-30 Mai 2002
29: Clavel R.
DELTA, a fast robot with parallel geometry.
In 18th Int. Symp. on Industrial Robots (ISIR), pages 91-100, Lausanne, 26-28 Avril 1988
30: Cleary K. et Brooks T.
Kinematic analysis of a novel 6-dof parallel manipulator.
In IEEE Int. Conf. on Robotics and Automation, pages 708-713, Atlanta, 2-6 Mai 1993
31: Daniali H.R.M., Zsombor-Murray P.J., et Angeles J.
The kinematics of a 3 d.o.f. planar and spherical double-triangular parallel manipulators.
In J. Angeles P. Kovacs, G. Hommel, editor, Computational Kinematics, pages 153-164. Kluwer, 1993.
32: Di Gregorio R.
A new parallel wrist using only revolute pairs: the 3-RUU wrist.
Robotica, 19(3):305-309, Mai 2001
33: Di Gregorio R.
A new family of spherical parallel manipulators.
Robotica, 20(4):353-358, Juillet 2002
34: Di Gregorio R.
Kinematics of the 3-RSR wrist.
IEEE Trans. on Robotics, 20(4):750-754, Août 2004
35: Di Gregorio R. et Parenti-Castelli V.
A translationnal 3-dof parallel manipulator.
In ARK, pages 49-58, Strobl, 29 Juin-4 Juillet, 1998
36: Dunlop G.R. et Jones T.P.
Position analysis of a 3-dof parallel manipulator.
Mechanism and Machine Theory, 32(8):903-920, Novembre 1997
37: Dunlop G.R. et Jones T.P.
Position analysis of a two DOF parallel mechanism- the Canterbury tracker.
Mechanism and Machine Theory, 34(4):599-614, Mai 1999
38: Ebert-Uphoff I. et Gosselin C.M.
Kinematic study of a new type of spatial parallel platform mechanism.
In ASME Design Engineering Technical Conferences, Atlanta, 13-16 Septembre 1998
39: El-Khasawneh B. et Ferreira P.M.
The Tetrahedral tripod.
In First European-American Forum on Parallel Kinematic Machines, pages 419-430, Milan, 31 Août-1 Septembre, 1998
40: Erdman A.G.
Modern Kinematics.
Wiley, New-York, 1993.
41: Fanghella P., Galletti C., et Giannetti E.
Parallel robots that change their group of motion.
In ARK, pages 49-56, Ljubljana, 26-29 Juin 2006
42: Fang Y. et Tsai L-W.
Structure synthesis of a class of 3-DOF rotational parallel manipulators.
IEEE Trans. on Robotics and Automation, 20(1):117-121, Février 2004
43: Faulring E.L., Colgate J.E., et Peshkin M.A.
A high performance 6-dof haptic Cobot.
In IEEE Int. Conf. on Robotics and Automation, pages 1980-1985, New Orleans, 28-30 Avril 2004
44: Frisoli A. et al.
Synthesis by screw algebra of translating in-parallel actuated mechanisms.
In ARK, Piran, 25-29 Juin 2000
45: Gallardo-Alvarado J., Rico-Martínez J.M., et Alici G.
Kinematics and singularity analyses of a 4-dof parallel manipulator using screw theory.
Mechanism and Machine Theory, 41(9):1048-1061, Septembre 2006
46: Gallardo J., Orozco-Mendoza H., et Rico-Martinez J.M.
A novel five-degrees of freedom decoupled robot.
Robotica, 28(6):909-917, Juin 2010
47: Gao F. et al.
New kinematic structures for 2-,3-,4- and 5-dof parallel manipulator designs.
Mechanism and Machine Theory, 37(11):1395-1411, Novembre 2002
48: Glazunov V.A. et al.
On new class of parallel-cross mechanisms.
In Computational Kinematics, pages 93-100, Duisburg, 6-8 Mai 2009
49: Gogu G.
Fully-isotropic three-degree-of-freedom parallel wrists.
In IEEE Int. Conf. on Robotics and Automation, pages 895-900, Roma, 10-14 Avril 2007
50: Gosselin C.M. et al.
Parallel mechanisms of the Multipteron family: kinematic architectures and benchmarking.
In IEEE Int. Conf. on Robotics and Automation, pages 555-560, Roma, 10-14 Avril 2007
51: Gosselin C. et Angeles J.
The optimum kinematic design of a planar three-degree-of-freedom parallel manipulator.
J. of Mechanisms, Transmissions and Automation in Design, 110(1):35-41, Mars 1988
52: Gosselin C.
Kinematic analysis optimization and programming of parallel robotic manipulators.
Thèse de doctorat, McGill University, Montréal, 15 Juin 1988
53: Gosselin C.
Kinematische und statische analysis eines ebenen parallelen manipulators mit dem freiheitgrad zwei.
Mechanism and Machine Theory, 31(2):149-160, Février 1996
54: 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
55: Goudali A., Lallemand J-P., et Zeghloul S.
Espace de travail de la nouvelle structure 2-Delta.
Revue d'Automatique et de Productique Appliquée, 8(2-3):205-210, 1995.
56: Griffis M., Crane C., et Duffy J.
A smart kinestatic interactive platform.
In ARK, pages 459-464, Ljubljana, 4-6 Juillet 1994
57: Grunewald P.
Car body painting with the spine spray system.
In 14th Int. Symp. on Industrial Robots (ISIR), pages 633-641, Gothenburg, 1984.
58: Han C-S, Tesar D., et Traver A.
The optimum design of a 6 dof fully parallel micromanipulator for enhanced robot accuracy.
In ASME Design Automation Conf., pages 357-363, Montréal, 17-20 Septembre 1989
59: Hayes M.J.D. et Zsombor-Murray P.J.
Kinematic mapping of 3-legged planar platform with holonomic higher pair.
In ARK, pages 421-430, Portoroz-Bernadin, 22-26 Juin 1996
60: Hayward V. et Kurtz R.
Preliminary study of serial-parallel redundant manipulator.
In NASA Conference on Space Telerobotics, pages 39-48, Pasadena, 31 Janvier 1989
61: Hervé J.M. et Karouia M.
The novel 3-RUU wrist with no idle pair.
In Workshop on Fundamental Issues and Future Research Directions for Parallel Mechanisms and Manipulators, Québec, 3-4 Octobre 2002
62: Hervé J.M.
Group mathematics and parallel link mechanisms.
In IMACS/SICE Int. Symp. on Robotics, Mechatronics, and Manufacturing Systems, pages 459-464, Kobe, 16-20 Septembre 1992
63: Hervé J.M.
Group mathematics and parallel link mechanisms.
In 9th IFToMM World Congress on the Theory of Machines and Mechanisms, pages 2079-2082, Milan, 30 Août-2 Septembre, 1995
64: Hess-Coelho T.A.
A redundant parallel spherical mechanism for robotic wrist applications.
ASME J. of Mechanical Design, 129(8):891-895, Août 2007
65: Hess-Coelho T.A. et Malvezzi F.
Workspace optimization of 3 RSS+CP parallel mechanisms.
In 12th IFToMM World Congress on the Theory of Machines and Mechanisms, Besancon, 18-21 Juin 2007
66: Hesselbach J. et al.
Platform for machine tool consists of two parallel platforms linked by five articulated levers providing five degrees of freedom for machine tool spindle, 23 Mars 2000
German Patent ${\rm n^\circ}$ DE19840886.
67: Hesselbach J., Plitea N., Frindt M., et Kusiek A.
A new parallel mechanism to use for cutting convex glass panels.
In ARK, pages 165-174, Strobl, 29 Juin-4 Juillet, 1998
68: Hesselbach J. et al.
Manipulator for parallel structure and driving guide element, 17 Septembre 1998
German Patent ${\rm n^\circ}$ DE19710171.
69: Hu M. et al.
The 3-dof in-parallel robot and its application for billet snagging.
In IFAC World Congress, Beijing, 1999.
70: Hui R. et al.
Mechanisms for haptic feedback.
In IEEE Int. Conf. on Robotics and Automation, pages 2138-2143, Nagoya, 25-27 Mai 1995
71: Hunt K.H.
Geometry of robotics devices.
Mechanical Engineering Transactions, 7(4):213-220, 1982.
72: Hunt K.H.
Structural kinematics of in parallel actuated robot arms.
J. of Mechanisms, Transmissions and Automation in Design, 105(4):705-712, Mars 1983
73: Innocenti C. et Parenti-Castelli V.
Direct kinematics of the 6-4 fully parallel manipulator with position and orientation uncoupled.
In European Robotics and Intelligent Systems Conf., Corfou, 23-28 Juin 1991
74: Janabi-Sharifi F. et Shckokin B.
A rotary parallel manipulator: modeling and workspace analysis.
In IEEE Int. Conf. on Robotics and Automation, pages 3671-3677, New Orleans, 28-30 Avril 2004
75: Jin Y., Chen I-M., et Yang G.
Structure synthesis and singularity analysis of a parallel manipulator based on selective actuation.
In IEEE Int. Conf. on Robotics and Automation, pages 4533-4538, New Orleans, 28-30 Avril 2004
76: Kanaan D., Wenger P., et Chablat D.
Kinematics analysis of the parallel module of the VERNE machine.
In 12th IFToMM World Congress on the Theory of Machines and Mechanisms, Besancon, 18-21 Juin 2007
77: Karouia M. et Hervè J.M.
A three-dof tripod for generating spherical motion.
In ARK, pages 395-402, Piran, 25-29 Juin 2000
78: Karouia M. et Hervè J.M.
Non-overconstrained 3-dof spherical parallel manipulators of type 3-RCC, 3-CRR, 3-CRC.
Robotica, 24(1):85-94, Janvier 2006
79: Kawamura S. et al.
Development of an ultrahigh speed robot FALCON using wire drive system.
In IEEE Int. Conf. on Robotics and Automation, pages 215-220, Nagoya, 25-27 Mai 1995
80: Kim S.M., Kim W., et Yi B-J.
Kinematic analysis and optimal design of a 3T1R type parallel mechanism.
In IEEE Int. Conf. on Robotics and Automation, pages 2199-2204, Kobe, 14-16 Mai 2009
81: Kim D. et W.K. Chung.
Kinematic condition analysis of three-dof pure translational parallel manipulators.
ASME J. of Mechanical Design, 125(2):323-331, Juin 2003
82: Kim H.S. et Tsai L-W.
Design optimization of Cartesian parallel manipulator.
ASME J. of Mechanical Design, 125(1):43-51, Mars 2003
83: Kim J. et al.
Eclipse-II: a new parallel mechanism enabling continuous 360-degree spinning plus three-axis translational motions.
In IEEE Int. Conf. on Robotics and Automation, pages 3274-3279, Seoul, 23-25 Mai 2001
84: Klinkhamer F.
An adjustment for five degrees of freedom as an alternative for a hexapod mechanism.
In SPIE Optomechanics 2003, San-Diego, 3-8 Août 2003
85: Koevermans W.P. et al.
Design and performance of the four d.o.f. motion system of the NLR research flight simulator.
In AGARD Conf. Proc. No 198, Flight Simulation, pages 17-1/17-11, La Haye, 20-23 Octobre 1975
86: Kohli D., Lee S-H, Tsai K-Y, et Sandor G.N.
Manipulator configurations based on Rotary-Linear (R-L) actuators and their direct and inverse kinematics.
J. of Mechanisms, Transmissions and Automation in Design, 110(4):397-404, Décembre 1988
87: Kokkinis T. et Millies P.
A parallel robot-arm regional structure with actuational redundancy.
Mechanism and Machine Theory, 26(6):629-641, 1991.
88: Kong X. et Gosselin C.M.
Kinematics and singularity analysis of a novel type of 3- $\underline{C}$ RR 3-dof translational parallel manipulator.
Int. J. of Robotics Research, 21(9):791-798, Septembre 2002
89: Kong X. et Gosselin C.M.
Type synthesis of 3T1R 4-dof parallel manipulators based on screw theory.
IEEE Trans. on Robotics and Automation, 20(2):181-190, Avril 2004
90: Kong X., Gosselin C.M., et Richard P.L.
Type synthesis of parallel mechanisms with multiple operation modes.
ASME J. of Mechanical Design, 129(7):595-601, Juin 2007
91: Krut S. et al.
I4: a new parallel mechanism for Scara motions.
In IEEE Int. Conf. on Robotics and Automation, pages 1875-1880, Taipei, 14-19 Septembre 2003
92: Krut S. et al.
A high-speed parallel robot for Scara motion.
In IEEE Int. Conf. on Robotics and Automation, pages 4109-4115, New Orleans, 28-30 Avril 2004
93: Lambert M.
Polyarticulated retractile mechanism, 24 Mars 1987
United States Patent ${\rm n^\circ}$ 4,651,589, Société Becart S.A.
94: Lande M.A. et David R.J.P.
Articulation for manipulator arm, 17 Novembre 1981
United States Patent ${\rm n^\circ}$ 4,300,362, Association des Ouvriers en Instruments de Précision, Paris.
95: Landsberger S.E. et Sheridan T.B.
A new design for parallel link manipulator.
In Proc. Systems, Man and Cybernetics Conf., pages 812-814, Tucson, 1985.
96: Laribi M.A., Romdhane L., et Zeghloul S.
Synthesis of RAF parallel robot for prescribed workspace.
In 12th IFToMM World Congress on the Theory of Machines and Mechanisms, Besancon, 18-21 Juin 2007
97: Lee C-C. et Hervè J.M.
Translational parallel manipulators with doubly planar limbs.
Mechanism and Machine Theory, 41(4):433-455, Avril 2006
98: Lee K-M. et Shah D.K.
Kinematic analysis of a three-degrees-of-freedom in-parallel actuated manipulator.
IEEE J. of Robotics and Automation, 4(3):354-360, Juin 1988
99: Li Q. et Huang Z.
Mobility analysis of a 3-5R parallel mechanism family.
In IEEE Int. Conf. on Robotics and Automation, pages 1887-1892, Taipei, 14-19 Septembre 2003
100: Li Q. et Huang Z.
Mobility analysis of lower-mobility parallel manipulators based on screw theory.
In IEEE Int. Conf. on Robotics and Automation, pages 1179-1184, Taipei, 14-19 Septembre 2003
101: Li W., Gao F., et Zhang J.
R-cube, a decoupled parallel manipulator only with revolute joints.
Mechanism and Machine Theory, 40(4):467-473, Avril 2005
102: Li W., Gao F., et Zhang J.
A three-dof translational manipulator with decoupled geometry.
Robotica, 23(6):805-808, Novembre 2005
103: Li Y. et Xu Q.
Kinematic analyis and design of a new 3-dof translational parallel manipulator.
ASME J. of Mechanical Design, 128(4):729-737, Juillet 2006
104: Ling S.H.
Motion/force simulator with six or three degrees of freedom, 19 Mai 1998
United States Patent ${\rm n^\circ}$ 5,752,834.
105: Liu X-J. et Wang J.
Some new parallel mechanisms containing the planar four-bar parallelogram.
Int. J. of Robotics Research, 22(9):717-732, Septembre 2003
106: Liu X-J., Kim J., et Oh K-K.
Singularity analysis of the HALF parallel manipulator with revolute actuators.
In IEEE Int. Conf. on Robotics and Automation, pages 767-772, Taipei, 14-19 Septembre 2003
107: Liu X-J., Wang J., et Kim J.
Determination of the link lengths for a spatial 3-dof parallel manipulator.
ASME J. of Mechanical Design, 128(2):365-373, Mars 2006
108: Lu Y. et Hu B.
Analysing kinematics and solving active/constrained forces of a 3SPU+UPR parallel manipulator.
Mechanism and Machine Theory, 42(10):1298-1313, Octobre 2007
109: Lu Y. et al.
Synthesis and analysis of kinematics/statics of a novel $2\underline{P}S+S\underline{P}R+SP$ parallel manipulator.
ASME J. of Mechanical Design, 130(9):092302-1/8, Septembre 2008
110: Lu Y. et al.
Kinematics/statics of a 4-dof over-constrained parallel manipulator with 3 legs.
Mechanism and Machine Theory, 44(8):1497-1506, Août 2009
111: Lückel J. et al.
Iterative model-based design of the parallel robot, TriPlanar.
In IEEE/ASME Int. Conf. on Advanced Intelligent Mechatronics, pages 135-140, Como, 8-12 Juillet 2001
112: McCallion H. et Pham D.T.
The analysis of a six degrees of freedom work station for mechanized assembly.
In 5th IFToMM World Congress on the Theory of Machines and Mechanisms, pages 611-616, Montréal, Juillet 1979
113: Maier T. et Woernle C.
Inverse kinematics for an underconstrained cable suspension manipulator.
In ARK, pages 97-104, Strobl, 29 Juin-4 Juillet, 1998
114: Martin Y.S. et al.
VERNE, a new 5-axes hybrid architecture machining center.
In 5th Chemnitzer Parallelkinematik Seminar, pages 657-676, Chemnitz, 25-26 Avril 2006
115: Mbarek T., Nefzi M., et Corves B.
Kinematic analysis and workspace determination of a parallel manipulator with five degree of freedom.
In Computational Kinematics, Cassino, 4-6 Mai 2005
116: McCloy D.
Some comparisons of serial-driven and parallel driven manipulators.
Robotica, 8(4):355-362, 1990.
117: Merkle R.C.
A new family of six degree of freedom positional devices.
http://nano.xerox.com/nanotech/6dof.html, 1994.
118: Merlet J-P. et Gosselin C.
Nouvelle architecture pour un manipulateur parallèle à 6 degrés de liberté.
Mechanism and Machine Theory, 26(1):77-90, 1991.
119: Merlet J-P.
Direct kinematics of planar parallel manipulators.
In IEEE Int. Conf. on Robotics and Automation, pages 3744-3749, Minneapolis, 24-26 Avril 1996
120: Mianowski K.
Singularity analysis of parallel manipulator POLMAN 3x2 with six degrees of freedom.
In 12th IFToMM World Congress on the Theory of Machines and Mechanisms, Besancon, 18-21 Juin 2007
121: Mianowski K. et Nazarczuk K.
Parallel drive of manipulator arm.
In 8th RoManSy, pages 140-147, Cracovie, 2-6 Juillet 1990
122: Mianowski K.
Dextrous fully parallel manipulator with six degrees of freedom.
In 12th RoManSy, pages 253-260, Paris, 6-9 Juillet 1998
123: Mitova T. et Vatkitchev A.
Analysis of a closed space mechanism with three degree of mobility.
In XI COBEM, Rio de Janeiro, 1991.
124: Nagai K. et al.
Development of parallel manipulator "ninja" with ultra-high-acceleration.
In IEEE Int. Conf. on Robotics and Automation, pages 3678-3685, Taipei, 14-19 Septembre 2003
125: Nastase A.
The class of hybrid parallel mechanisms 3(JRS).
In 12th IFToMM World Congress on the Theory of Machines and Mechanisms, Besancon, 18-21 Juin 2007
126: Neumann K.E.
Robot, 22 Mars 1988
United States Patent ${\rm n^\circ}$ 4,732,525, Neos Product HB Norrtalje Suède.
127: Olea G., Plitea N., et Takamusa K.
Kinematical analysis and simulation of a new parallel mechanism for robotics application.
In ARK, pages 403-410, Piran, 25-29 Juin 2000
128: Ouerfelli M. et Kumar V.
Optimization of a spherical five bar parallel drive linkage.
In ASME Design Automation Conf., Miami, 22-25 Septembre 1991
129: Parushev P. et Chakarov D.
Structural investigation of manipulators with linear drivers.
In 8th RoManSy, pages 148-155, Cracovie, 2-6 Juillet 1990
130: Patarinski S.P. et Uchiyama M.
Position/orientation decoupled parallel manipulator.
In ICAR, pages 153-158, Tokyo, 1-2 Novembre 1993
131: Piccin O. et al.
Kinematic modeling of a 5-dof parallel mechanism for semi-spherical workspace.
Mechanism and Machine Theory, 44(8):1485-1496, Août 2009
132: Pierrot F.
Parallel mechanisms and redundancy.
In 1st Int. Colloquium, Collaborative Research Centre 562, pages 261-277, Braunschweig, 29-30 Mai 2002
133: Pierrot F. et al.
Lower mobility PKM for large tilting angles.
In 2nd Int. Colloquium, Collaborative Research Centre 562, pages 253-268, Braunschweig, 10-11 Mai 2005
134: Pierrot F. et al.
Four-dof PKM with articulated traveling plate.
In 5th Chemnitzer Parallelkinematik Seminar, pages 677-693, Chemnitz, 25-26 Avril 2006
135: Pierrot F., Dauchez P., et Fournier A.
Towards a fully-parallel 6 d.o.f. robot for high speed applications.
In IEEE Int. Conf. on Robotics and Automation, pages 1288-1293, Sacramento, 11-14 Avril 1991
136: Poduraev J., Ihlenfeldt S., et Loginov A.
Development of a control approach for PKMs with scissor kinematics.
In 5th Chemnitzer Parallelkinematik Seminar, pages 175-192, Chemnitz, 25-26 Avril 2006
137: Pollard W.L.V.
Position controlling apparatus, 16 Juin 1942
United States Patent ${\rm n^\circ}$ 2,286,571.
138: Pritschow G., Eppler C., et Lehner W-D.
Highly dynamic drives for parallel kinematic machines with constant arm length.
In 1st Int. Colloquium, Collaborative Research Centre 562, pages 199-211, Braunschweig, 29-30 Mai 2002
139: Rebman J.
Object manipulator, 23 Août 1988
United States Patent ${\rm n^\circ}$ 4,765,795 Lord Corporation, Eric, Pa.
140: Reboulet C.
Les nouvelles architectures de robots: performances et perspectives liées aux robots parallèles.
In 8ieme journées Robotique et Productique du CETIM, St Etienne, 1990.
141: Reboulet C. et al.
Rapport d'avancement projet VAP, thème 7, phase 3.
Rapport de Recherche 7743, CNES/DERA, Janvier 1991
142: Reboulet C., Lambert C., et Nombrail N.
A parallel redundant manipulator: SPEED-R-MAN and its control.
In ISRAM, pages 285-291, Santa-Fe, 11-13 Novembre 1992
143: Reboulet C.
Parallel-structure manipulator device for displacing and orienting an object in a cylindrical workspace, 23 Juillet 1996
United States Patent ${\rm n^\circ}$ 5,539,291 ONERA.
144: S. Refaat et al.
Two-mode overconstrained three-dofs rotational-translational linear-mode-based parallel-kinematics mechanism for machine tool applications.
Robotica, 25(4):461-466, Juillet 2007
145: Reinholtz C.F. et Gokhale D.
Design and analysis of variable geometry truss robots.
In 9th Annual Conf. on Applied Mechanisms, pages 1-5, Oklahoma State University, 1987.
146: Richard P.L., Gosselin C.M., et Kong X.
Kinematic analysis and prototyping of a partially decoupled 4-dof 3TR1 parallel manipulator.
ASME J. of Mechanical Design, 129(7):611-616, Juin 2007
147: Rolland L.H.
The Manta and the Kanuk novel 4-dof parallel mechanisms for industrial handling.
In ASME Int. Mech. Eng. Congress, Nashville, 14-19 Novembre 1999
148: Romdhane L., Affi Z., et Fayet M.
Design and singularity analysis of a 3-translational-dof in-parallel manipulator.
ASME J. of Mechanical Design, 124(3):419-426, Septembre 2002
149: Romiti A. et Sorli M.
Flexible sensorized micro-assembly by a small parallel manipulator.
In Int. FAMOS Seminar, pages 181-189, Besançon, 18-19 Septembre 1990
150: Ryu D. et al.
Design of a 6 DOF haptic master for teleoperation of a mobile manipulator.
In IEEE Int. Conf. on Robotics and Automation, pages 3243-3248, Taipei, 14-19 Septembre 2003
151: Ryu R.J. et al.
Eclipse: an overactuated parallel mechanism for rapid machining.
In 12th RoManSy, pages 79-86, Paris, 6-9 Juillet 1998
152: Salgado O. et al.
A parallelogram-based parallel manipulator for Schönflies motion.
ASME J. of Mechanical Design, 129(12):1243-1250, Décembre 2007
153: Sarkissyan Y.L. et Parikyan T.F.
Manipulator, 1990.
Russian Patent ${\rm n^\circ}$ 1585144.
154: Seguchi Y., Tanaka M., et al.
Criteria-oriented configuration control of adaptive structure and its modular neural network representation.
In First Joint USA/Japan Conf. on adaptive structure, pages 402-421, Maui, Hawaii, 13-15 Novembre 1990
155: Shahinpoor M.
Kinematics of a parallel-serial (hybrid) manipulator.
J. of Robotic Systems, 9(1):13-36, 1992.
156: Shelef G.
Six degree of freedom micromanipulator, 11 Avril 1989
United States Patent ${\rm n^\circ}$ 4,819,496 Air Force Washington.
157: Shen H. et al.
Structure and analysis of a novel three-translation parallel mechanism.
Mechanism and Machine Theory, 40(10):1181-1194, Octobre 2005
158: Stewart D.
A platform with 6 degrees of freedom.
Proc. of the Institution of mechanical engineers, 180(Part 1, 15):371-386, 1965.
159: 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
160: Stoughton R. et Kokkinis T.
Some properties of a new kinematic structure for robot manipulators.
In ASME Design Automation Conf., pages 73-79, Boston, 28 Juin 1987
161: Tanev T.K.
Forward displacement analysis of a three legged four-degree-of-freedom parallel manipulator.
In ARK, pages 147-154, Strobl, 29 Juin-4 Juillet, 1998
162: Tesar D. et Butler M.S.
A generalized modular architecture for robot structures.
Manufacturing review, 2(2), Juin 1989
163: Thornton G.S.
The GEC Tetrabot-a new serial-parallel assembly robot.
In IEEE Int. Conf. on Robotics and Automation, pages 437-439, Philadelphia, 24-29 Avril 1988
164: Kaisha Toyoda Kokikabushiki, Pierrot F., et Company O.
Four degree of freedom parallel robot, 18 Septembre 2000
European Patent ${\rm n^\circ}$ EP 1 084 802 A2.
165: Tsai L-W. et Joshi S.
Comparison study of architectures of four 3 degree-of-freedom translational parallel manipulators.
In IEEE Int. Conf. on Robotics and Automation, pages 1283-1288, Seoul, 23-25 Mai 2001
166: Tsai L-W.
Kinematics of a three-dof platform with three extensible limbs.
In ARK, pages 401-410, Portoroz-Bernadin, 22-26 Juin 1996
167: Tsai L-W.
The jacobian analysis of a parallel manipulator using reciprocal screws.
In ARK, pages 327-336, Strobl, 29 Juin-4 Juillet, 1998
168: Vischer P. et Clavel R.
Argos: a novel 3-dof parallel wrist mechanism.
Int. J. of Robotics Research, 19(1):5-11, Janvier 2000
169: Wang J.S. et al.
Error analysis on a tripod parallel machine tool based on D-H parameters differential transform.
In 12th IFToMM World Congress on the Theory of Machines and Mechanisms, Besancon, 18-21 Juin 2007
170: Wang J. et Liu X-J.
Analysis of a novel cylindrical 3-dof parallel robot.
Robotics and Autonomous Systems, 42(1):31-46, Janvier 2003
171: Wenger P. et Chablat D.
Kinematic analysis of a new parallel machine-tool: the Orthoglide.
In ARK, pages 305-314, Piran, 25-29 Juin 2000
172: Williams II R.L. et Poling D.B.
Spherically-actuated platform manipulator.
In ASME Proc. of the the 26th Biennial Mechanisms Conf., Baltimore, 10-13 Septembre 2000
173: Wu H. et al.
Design of parallel intersector weld/cut robot for machining processes in ITER vacuum vessel.
Fusion Engineering and Design, 69(1-4):327-331, Septembre 2003
174: Xi F., Xu Y., et Xiong G.
Design and analysis of a re-configurable parallel robot.
Mechanism and Machine Theory, 41(2):191-211, Février 2006
175: Xu Q. et Li Y.
Design and analysis of a new three-prismatic-revolute-cylindrical translational parallel manipulator.
Proc. Instn Mech Engrs, Part C: J. Mechanical Engineering Science, 221(5):565-576, 2007.
176: Yi L. et Leinonen T.
Using cad variation geometric approach solving velocity/acceleration of a 4SPS &UPU parallel manipulator.
In 12th IFToMM World Congress on the Theory of Machines and Mechanisms, Besancon, 18-21 Juin 2007
177: Yi B-J., Cox D., et Tesar D.
Analysis and design criteria for a redundantly actuated 4-legged six degree-of-freedom parallel manipulator.
In IEEE Int. Conf. on Robotics and Automation, pages 3286-3293, Seoul, 21-26 Mai 2001
178: Zabalza I. et al.
Tri-Scott. a new kinematic structure for a 6-dof decoupled parallel manipulator.
In Workshop on Fundamental Issues and Future Research Directions for Parallel Mechanisms and Manipulators, pages 12-15, Québec, 3-4 Octobre 2002
179: Zamanov V.B et Sotirov Z.M.
Parallel manipulators in robotics.
In IMACS/SICE Int. Symp. on Robotics, Mechatronics, and Manufacturing Systems, pages 409-418, Kobe, 16-20 Septembre 1992
180: Zeng D., Huang Z., et Lu W.
Performance analysis and optimal design of a 3-dof 3-RUR parallel mechanism.
ASME J. of Mechanical Design, 130(4):042307-1/9, Avril 2008
181: Zhang D. et Gosselin C.M.
Kinetostatic modeling of N-DOF parallel mechanisms with a passive constraining leg and prismatic actuators.
ASME J. of Mechanical Design, 123(3):375-384, Septembre 2001
182: Zhang Y., Liu H., et Wu X.
Kinematics analysis of a novel parallel manipulator.
Mechanism and Machine Theory, 44(9):1648-1657, Septembre 2009
183: Zhu S-J., Huang Z., et Zhao M-Y.
Singularity analysis for a 5-dof fully-symmetrical parallel manipulator 5- $\underline{RRR}(RR)$ .
In IEEE Int. Conf. on Robotics and Automation, pages 1189-1194, Roma, 10-14 Avril 2007
184: Zlatanov D. et Gosselin C.M.
A family of new parallel architectures with four degrees of freedom.
In F.C. Park C.C. Iurascu, editor, Computational Kinematics, pages 57-66. EJCK, 20-22 Mai 2001
185: Zlatanov D., Bonev I.A., et Gosselin C.M.
Constraint singularities as configuration space singularities.
In ARK, Caldes de Malavalla, 29 Juin-2 Juillet, 2002
186: Zobel P.B., Di Stefano P., et Raparelli T.
The design of a 3 dof parallel robot with pneumatic drives.
In 27th Int. Symp. on Industrial Robots (ISIR), pages 707-710, Milan, 6-8 Octobre 1996
187: Zoppi M., Bruzzone L.E., et Molfino R.M.
A novel 5-dof interconnected-chains PKM for manufacturing revolute surfaces.
In 4th Chemnitzer Parallelkinematik Seminar, Chemnitz, 20-21 Avril 2004