AbstractCognitive architecture is used here to create a portfolio of movement in a spherical-wristed PUMA 560 robot. Adaptive Neuro-Fuzzy Inference System (ANFIS) was used, and the robot's postures and trajectories were executed in Virtual Reality (VR). The design aims to enable complex movements through use of the dual phases of ANFIS: one, solution by Inverse Kinematic Problem (IKP) with ANFIS identifier, for the end-effector's position and orientation as allowed by the 3-DOF wrist (the identifier offers high computation and accuracy of the IKP solution), two, implementing an inverse-ANFIS controller for all the robot's joint angles. VR implemented the robot's movements through the controller's use of forward dynamics. The IKP of determin...
RÉSUMÉ: Les manipulateurs robotiques sont utilisés pour différents types d'applications telles que l...
Solution of inverse kinematic equations is complex problem, the complexity comes from the nonlineari...
5th International Conference on Mechatronics and Control Engineering, ICMCE 2016 -- 14 December 2016...
Abstract: One of the most important problems in robot kinematics and control is, find-ing the soluti...
Obtaining the joint variables that result in a desired position of the robot end-effector called as ...
Tracking a desired trajectory in joint space has been favored in several robot manipulators a...
In this paper, Adaptive Neuro-Fuzzy Inference System is utilized to learn from training data and cre...
Abstract—the FK (forward kinematics) and IK (inverse kinematics) of robotics is very difficult, as r...
We proposed a solution for the inverse kinematics problem based on fuzzy logic and neural networks. ...
In this paper, a new method for solving the inverse kinematics of the fingers of an anthropomorphic ...
The strong dependence of the computed torque control of dynamic model of the robot manipulator makes...
Nowadays, robot arms are used as standalone or intrinsic part of many robot systems in various field...
Robotics technology is known as a great technology demand to be developed continuesly. One of the im...
In this thesis, a method for forward and inverse kinematics analysis of a 5-DOF and a 7-DOF Redundan...
Abstract— In this paper Inverse kinematics solution of the PUMA 560 is solved. In robotics the main ...
RÉSUMÉ: Les manipulateurs robotiques sont utilisés pour différents types d'applications telles que l...
Solution of inverse kinematic equations is complex problem, the complexity comes from the nonlineari...
5th International Conference on Mechatronics and Control Engineering, ICMCE 2016 -- 14 December 2016...
Abstract: One of the most important problems in robot kinematics and control is, find-ing the soluti...
Obtaining the joint variables that result in a desired position of the robot end-effector called as ...
Tracking a desired trajectory in joint space has been favored in several robot manipulators a...
In this paper, Adaptive Neuro-Fuzzy Inference System is utilized to learn from training data and cre...
Abstract—the FK (forward kinematics) and IK (inverse kinematics) of robotics is very difficult, as r...
We proposed a solution for the inverse kinematics problem based on fuzzy logic and neural networks. ...
In this paper, a new method for solving the inverse kinematics of the fingers of an anthropomorphic ...
The strong dependence of the computed torque control of dynamic model of the robot manipulator makes...
Nowadays, robot arms are used as standalone or intrinsic part of many robot systems in various field...
Robotics technology is known as a great technology demand to be developed continuesly. One of the im...
In this thesis, a method for forward and inverse kinematics analysis of a 5-DOF and a 7-DOF Redundan...
Abstract— In this paper Inverse kinematics solution of the PUMA 560 is solved. In robotics the main ...
RÉSUMÉ: Les manipulateurs robotiques sont utilisés pour différents types d'applications telles que l...
Solution of inverse kinematic equations is complex problem, the complexity comes from the nonlineari...
5th International Conference on Mechatronics and Control Engineering, ICMCE 2016 -- 14 December 2016...