Modelling and simulation of 3DOF parallel manipulator using artificial neural network
Date
2019
Authors
Journal Title
Journal ISSN
Volume Title
Type
Conference Paper
Publisher
Institute of Physics Publishing
Series Info
IOP Conference Series: Materials Science and Engineering
610
610
Scientific Journal Rankings
Abstract
Parallel Robot (PR) has shown its ability to be precise in its movement. Actuators move simultaneously to achieve the required target, on top of that its payload is much greater than what a serial robot can withstand. To determine workspace of the robot with known angles Forward kinematics has to be introduced which, bring a lot of difficulty as it requires the solution of multiple coupled nonlinear algebraic equations. Those equations bring multiple valid solutions. Those solutions could lead to different locations. As it is not going to make the pick and place for PR will be easier. This paper will discuss a numerical method that calculates the Forward Kinematics for PR. This method uses Artificial Neural Network which relay on training with a certain number of iterations. The set of data to be used in the training can be obtained from PR simulation. This method will serve to know workspace around PR as it will help it to pick the target object. � 2019 Published under licence by IOP Publishing Ltd.
Description
Scopus
Keywords
Aerospace engineering, Kinematics, Manipulators, Neural networks, Numerical methods, Robots, Forward kinematics, Modelling and simulations, Nonlinear algebraic equations, Number of iterations, Parallel manipulators, Parallel robots, Pick and place, Serial robots, Nonlinear equations