An optimization approach for the inverse kinematics of a highly redundant robot

Costa, Paulo Gomes da; Lima, José; Pereira, Ana I.; Costa, Pedro; Pinto, Andry

http://hdl.handle.net/10198/17175

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Autores

Costa, Paulo Gomes da

Resumo(s)

This paper describes a robot with 12 degrees of freedom for pick-and-place operations using bricks. In addition, an optimization approach is proposed, which determines the state of each joint (that establishes the pose for the robot) based on the target position while minimizing the effort of the servomotors avoiding the inverse kinematics problem, which is a hard task for a 12 DOF robot manipulator. Therefore, it is a multi-objective optimization problem that will be solved using two optimization methods: the Stretched Simulated Annealing method and the NSGA II method. The experiments conducted in a simulation environment prove that the proposed approach is able to determine a solution for the inverse kinematics problem. A real robot formed by several servomotors and a gripper is also presented in this research for validating the solutions.

Palavras-chave

Robot manipulators Multi-objective optimization Pick-and-place

URI

http://hdl.handle.net/10198/17175

Citação

Costa, Paulo, Lima, José; Pereira, Ana I.; Costa, Pedro; Pinto, Andry (2016). An optimization approach for the inverse kinematics of a highly redundant robot. In secon international Afro-european conference for industrial advancement AECIA 2015. (Advances in Intelligent Systems and Computing).. Springer. 427, p. 433-442. ISBN 978-3-319-29504-6

Editora

Springer

DOI

10.1007/978-3-319-29504-6_41

Coleções

ESTiG - Publicações em Proceedings Indexadas à WoS/Scopus

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