Jose Luis Suñer scite author profile

SUMMARYThis paper presents a new genetic algorithm methodology to solve the trajectory planning problem. This methodology can obtain smooth trajectories for industrial robots in complex environments using a direct method. The algorithm simultaneously creates a collision-free trajectory between initial and final configurations as the robot moves. The presented method deals with the uncertainties associated with the unknown kinematic properties of intermediate via points since they are generated as the algorithm evolves looking for the solution. Additionally, the objective of this algorithm is to minimize the trajectory time, which guides the robot motion. The method has been applied successfully to the PUMA 560 robotic system. Four operational parameters (execution time, computational time, end-effector distance traveled, and significant points distance traveled) have been computed to study and analyze the algorithm efficiency. The experimental results show that the proposed optimization algorithm for the trajectory planning problem of an industrial robot is feasible.

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Simultaneous algorithm to solve the trajectory planning problem

Rubio

Valero

Suñer

et al. 2009

Mechanism and Machine Theory

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Simultaneous algorithm for trajectory planning

Rubio

Suñer

Mata

2010

Asian Journal of Control

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This paper addresses the solution of smooth trajectory planning for industrial robots in environments with obstacles using a direct method, creating the trajectory gradually as the robot moves. The presented method deals with the uncertainties associated with the lack of knowledge of kinematic properties of intermediate via-points since they are generated as the algorithm evolves looking for the solution. Several cost functions are also proposed, which use the time that has been calculated to guide the robot motion. The method has been applied successfully to a PUMA 560 robot and four operational parameters (execution time, computational time, distance travelled and number of configurations) have been computed to study the properties and influence of each cost function on the trajectory obtained.

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Jose Luis Suñer

Characterisation of the mechanical impedance of the human hand–arm system: The influence of vibration direction, hand–arm posture and muscle tension

A direct approach to solving trajectory planning problems using genetic algorithms with dynamics considerations in complex environments

Simultaneous algorithm to solve the trajectory planning problem

Simultaneous algorithm for trajectory planning

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