Add to ORKGInternational audienceThis paper deals with the optimal path placement for a manipulator based on energy consumption. It proposes a methodology to determine the optimal location of a given test path within the workspace of a manipulator with minimal electric energy used by the actuators while taking into account the geometric, kinematic and dynamic constraints. The proposed methodology is applied to the Orthoglide~3-axis, a three-degree-of-freedom translational parallel kinematic machine (PKM), as an illustrative example
Enhancing energy efficiency is one of the main challenges of today’s industrial robotics and manufac...
Path planning for parallel manipulators, especially for manipulators greater than three degrees of f...
In this paper, we present an approach for the minimum-energy trajectory planning in industrial robot...
International audienceThis paper deals with the multi-objective path placement optimization for Para...
Parallel Kinematics Machines (PKMs) have attracted attention for their high speed, good accuracy, lo...
This paper presents the optimization of the task placement to achieve energy efficiency in a paralle...
Organised by: Cranfield UniversityIn most existing studies, the solutions of planar parallel manipul...
In this paper we describe a task level programming system for path specific robot operations. We def...
Due to the ever increasing number of industrial robots in the world, working day and night producing...
The interest in novel engineering methods andtools for optimizing the energy consumption in robotic ...
International audienceThis paper addresses the architecture optimization of a 3-DOF translational pa...
The performance of a manipulator during the execution of a task depends, among other things, on the ...
In Continuous Path Control (CPC) problems of robot motion planning three tasks have to be solved. T...
AbstractIn this work, an analytical methodology to minimize the energy expenditure of mechatronic sy...
Productivity of a manipulator depends, largely, on the time it takes to traverse a path, which is a ...
Enhancing energy efficiency is one of the main challenges of today’s industrial robotics and manufac...
Path planning for parallel manipulators, especially for manipulators greater than three degrees of f...
In this paper, we present an approach for the minimum-energy trajectory planning in industrial robot...
International audienceThis paper deals with the multi-objective path placement optimization for Para...
Parallel Kinematics Machines (PKMs) have attracted attention for their high speed, good accuracy, lo...
This paper presents the optimization of the task placement to achieve energy efficiency in a paralle...
Organised by: Cranfield UniversityIn most existing studies, the solutions of planar parallel manipul...
In this paper we describe a task level programming system for path specific robot operations. We def...
Due to the ever increasing number of industrial robots in the world, working day and night producing...
The interest in novel engineering methods andtools for optimizing the energy consumption in robotic ...
International audienceThis paper addresses the architecture optimization of a 3-DOF translational pa...
The performance of a manipulator during the execution of a task depends, among other things, on the ...
In Continuous Path Control (CPC) problems of robot motion planning three tasks have to be solved. T...
AbstractIn this work, an analytical methodology to minimize the energy expenditure of mechatronic sy...
Productivity of a manipulator depends, largely, on the time it takes to traverse a path, which is a ...
Enhancing energy efficiency is one of the main challenges of today’s industrial robotics and manufac...
Path planning for parallel manipulators, especially for manipulators greater than three degrees of f...
In this paper, we present an approach for the minimum-energy trajectory planning in industrial robot...