In this paper, Adaptive Neuro-Fuzzy Inference System is utilized to learn from training data and create ANFIS with limited mathematical representation of the system. The proposed system consists of three phases i.e. Generation of training data, Execution of ANFIS, Generation of joint angle trajectory. The schematic of the proposed system is shown in Figure 4. The predicted joint angle configurations are further to be used to determine the trajectory for the task execution of the robot. The simulation studies conducted on a 5-DOF SCORBOT ER-IV robot manipulator shows the effectiveness of the approach over conventional technique
In this paper, a new method for solving the inverse kinematics of the fingers of an anthropomorphic ...
In this research, the solution of inverse kinematics using the Adaptive Neuro-Fuzzy Inference System...
Inverse kinematics of manipulator comprises the computation required to find the joint angles for a ...
Tracking a desired trajectory in joint space has been favored in several robot manipulators a...
Obtaining the joint variables that result in a desired position of the robot end-effector called as ...
Abstract—the FK (forward kinematics) and IK (inverse kinematics) of robotics is very difficult, as r...
In this thesis, a method for forward and inverse kinematics analysis of a 5-DOF and a 7-DOF Redundan...
Nowadays, robot arms are used as standalone or intrinsic part of many robot systems in various field...
Abstract: One of the most important problems in robot kinematics and control is, find-ing the soluti...
We proposed a solution for the inverse kinematics problem based on fuzzy logic and neural networks. ...
Robotics technology is known as a great technology demand to be developed continuesly. One of the im...
5th International Conference on Mechatronics and Control Engineering, ICMCE 2016 -- 14 December 2016...
This paper presents a scheme based on Adaptive Neuro-Fuzzy Inference Systems (ANFIS) to generate tra...
AbstractCognitive architecture is used here to create a portfolio of movement in a spherical-wristed...
The dynamics of robot manipulators are highly nonlinear with strong couplings existing between joint...
In this paper, a new method for solving the inverse kinematics of the fingers of an anthropomorphic ...
In this research, the solution of inverse kinematics using the Adaptive Neuro-Fuzzy Inference System...
Inverse kinematics of manipulator comprises the computation required to find the joint angles for a ...
Tracking a desired trajectory in joint space has been favored in several robot manipulators a...
Obtaining the joint variables that result in a desired position of the robot end-effector called as ...
Abstract—the FK (forward kinematics) and IK (inverse kinematics) of robotics is very difficult, as r...
In this thesis, a method for forward and inverse kinematics analysis of a 5-DOF and a 7-DOF Redundan...
Nowadays, robot arms are used as standalone or intrinsic part of many robot systems in various field...
Abstract: One of the most important problems in robot kinematics and control is, find-ing the soluti...
We proposed a solution for the inverse kinematics problem based on fuzzy logic and neural networks. ...
Robotics technology is known as a great technology demand to be developed continuesly. One of the im...
5th International Conference on Mechatronics and Control Engineering, ICMCE 2016 -- 14 December 2016...
This paper presents a scheme based on Adaptive Neuro-Fuzzy Inference Systems (ANFIS) to generate tra...
AbstractCognitive architecture is used here to create a portfolio of movement in a spherical-wristed...
The dynamics of robot manipulators are highly nonlinear with strong couplings existing between joint...
In this paper, a new method for solving the inverse kinematics of the fingers of an anthropomorphic ...
In this research, the solution of inverse kinematics using the Adaptive Neuro-Fuzzy Inference System...
Inverse kinematics of manipulator comprises the computation required to find the joint angles for a ...