Abstract: This paper proposes an analytical solution for a 5-DOF manipulator to follow a given trajectory while keeping the orientation of one axis in the end-effector frame. The forward kinematics and inverse kinematics for a 5-DOF manipulator are analyzed systemically. The singular problem is discussed after the forward kinematics is provided. For any given reachable position and orientation of the end-effector, the derived inverse kinematics will provide an accurate solution. In other words, there exists no singular problem for the 5-DOF manipulator, which has wide application areas such as welding, spraying, and painting. Experiment results verify the effectiveness of the methods developed in this paper
This report presents various methods for solving the inverse kinematic problem for a non-conventiona...
This report presents various methods for solving the inverse kinematic problem for a non-conventiona...
This paper studies an analytic solution for 6-DOF manipulator of a KUKA KR 5 SIXX R650 robotic arm u...
This paper presents an iterative algorithm to find a inverse kinematic solution of 5-DOF robot. The ...
WOS: 000523686500015In this study a five Degrees of Freedom (DOF) serial robot manipulator was desig...
This paper describes the design, fabrication and analysis a five axes articulated robotic manipulato...
The proposed study provides a solution of the inverse and forward kinematic problems and workspace a...
Abstract: A new approach to solving the inverse problem of kinematics for manipulators of ...
A 5 degree of freedom (shown by \theta_{1-5}) robot was analyzed in this thesis for a better underst...
Abstract: An algorithm for a unified approach to the solution of the inverse kinematics pr...
A fully-symmetrical 5-DoF 3R2T parallel manipulator has three rotational and two translational freed...
A fully-symmetrical 5-DoF 3R2T parallel manipulator has three rotational and two translational freed...
This paper shows in detail the mathematical model of direct and inverse kinematics for a robot manip...
This paper aims to present a novel algorithm to solve the inverse kinematics (IK) problem of a 6 Deg...
A solution search algorithm based on a one-dimensional numerical approach to the inverse kinematic p...
This report presents various methods for solving the inverse kinematic problem for a non-conventiona...
This report presents various methods for solving the inverse kinematic problem for a non-conventiona...
This paper studies an analytic solution for 6-DOF manipulator of a KUKA KR 5 SIXX R650 robotic arm u...
This paper presents an iterative algorithm to find a inverse kinematic solution of 5-DOF robot. The ...
WOS: 000523686500015In this study a five Degrees of Freedom (DOF) serial robot manipulator was desig...
This paper describes the design, fabrication and analysis a five axes articulated robotic manipulato...
The proposed study provides a solution of the inverse and forward kinematic problems and workspace a...
Abstract: A new approach to solving the inverse problem of kinematics for manipulators of ...
A 5 degree of freedom (shown by \theta_{1-5}) robot was analyzed in this thesis for a better underst...
Abstract: An algorithm for a unified approach to the solution of the inverse kinematics pr...
A fully-symmetrical 5-DoF 3R2T parallel manipulator has three rotational and two translational freed...
A fully-symmetrical 5-DoF 3R2T parallel manipulator has three rotational and two translational freed...
This paper shows in detail the mathematical model of direct and inverse kinematics for a robot manip...
This paper aims to present a novel algorithm to solve the inverse kinematics (IK) problem of a 6 Deg...
A solution search algorithm based on a one-dimensional numerical approach to the inverse kinematic p...
This report presents various methods for solving the inverse kinematic problem for a non-conventiona...
This report presents various methods for solving the inverse kinematic problem for a non-conventiona...
This paper studies an analytic solution for 6-DOF manipulator of a KUKA KR 5 SIXX R650 robotic arm u...
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