Add to ORKGOrganised by: Cranfield UniversityIn most existing studies, the solutions of planar parallel manipulators are restricted to a feasible region of solution. This research provides an optimal solution in link dimension of planar parallel manipulators to a defined trajectory and structure of the links, minimizing the mechanical energy of the manipulator.An algorithm will be obtained that allows adequate dimensioning of the manipulator for a specific task, by means of a passive reconfiguration. With this method most of the energy is used by the manipulator to execute a task, not for the manipulator’s movement. The process is illustrated with an example.Mori Seiki – The Machine Tool Compan
Optimal design of a six degrees-of-freedom, fully parallel manipulator, called a Stewart platform is...
Parallel mechanisms are found as positioning platforms in several robot manipulator appli...
Parallel manipulators potentially possess some superior properties over their serial counterparts, e...
International audienceThis paper addresses the dimensional synthesis of parallel kinematics machines...
International audienceThe need of a device providing two translational (2T) and two rotational (2R) ...
International audienceThis paper deals with the comparison of planar parallel manipulator architectu...
The design of robotic manipulators is dictated by a set of pre-determined performance parameters and...
In the last few years, parallel manipulators are being increasingly studied and used for different a...
AbstractThe application of a general optimization methodology, previously proposed by the authors, i...
Development in pick-and-place robotic manipulators continues to grow as factory processes are stream...
International audienceThis paper deals with the optimal path placement for a manipulator based on en...
International audienceThe paper proposes an integrated approach to the design optimization of parall...
This paper presents the optimization of the task placement to achieve energy efficiency in a paralle...
This paper proposes a methodology consisting of a two-step optimization procedure for resolving the ...
AbstractThis paper presents an optimization methodology for achieving minimum actuation torques of a...
Optimal design of a six degrees-of-freedom, fully parallel manipulator, called a Stewart platform is...
Parallel mechanisms are found as positioning platforms in several robot manipulator appli...
Parallel manipulators potentially possess some superior properties over their serial counterparts, e...
International audienceThis paper addresses the dimensional synthesis of parallel kinematics machines...
International audienceThe need of a device providing two translational (2T) and two rotational (2R) ...
International audienceThis paper deals with the comparison of planar parallel manipulator architectu...
The design of robotic manipulators is dictated by a set of pre-determined performance parameters and...
In the last few years, parallel manipulators are being increasingly studied and used for different a...
AbstractThe application of a general optimization methodology, previously proposed by the authors, i...
Development in pick-and-place robotic manipulators continues to grow as factory processes are stream...
International audienceThis paper deals with the optimal path placement for a manipulator based on en...
International audienceThe paper proposes an integrated approach to the design optimization of parall...
This paper presents the optimization of the task placement to achieve energy efficiency in a paralle...
This paper proposes a methodology consisting of a two-step optimization procedure for resolving the ...
AbstractThis paper presents an optimization methodology for achieving minimum actuation torques of a...
Optimal design of a six degrees-of-freedom, fully parallel manipulator, called a Stewart platform is...
Parallel mechanisms are found as positioning platforms in several robot manipulator appli...
Parallel manipulators potentially possess some superior properties over their serial counterparts, e...