Inverse Kinematics of Active Rotation Ball Joint Manipulators Using Workspaces Density Functions

Inverse Kinematics Resolution of Redundant Cooperative Manipulators Using Optimal Control Theory

The optimal path planning of cooperative manipulators is studied in the present research. Optimal Control Theory is employed to calculate the optimal path of each joint choosing an appropriate index of the system to be minimized and taking the kinematics equations as the constraints. The formulation has been derived using Pontryagin Minimum Principle and results in a Two Point Boundary Value Pr...

Workspace density and inverse kinematics for planar serial revolute manipulators

Article history: Received 13 July 2013 Received in revised form 3 August 2013 Accepted 6 August 2013 Available online 14 September 2013 The topic of reachable workspaces of robotic manipulators has received considerable attention over the past half century. One approach to generating workspaces is by sampling joint angles and evaluating the boundary of the resulting set in the space of rigid-bo...

Inverse Kinematics Resolution of Redundant Cooperative Manipulators Using Optimal Control Theory

The optimal path planning of cooperative manipulators is studied in the present research. Optimal Control Theory is employed to calculate the optimal path of each joint choosing an appropriate index of the system to be minimized and taking the kinematics equations as the constraints. The formulation has been derived using Pontryagin Minimum Principle and results in a Two Point Boundary Value Pr...

GMDH Type Neural Networks and Their Application to the Identification of the Inverse Kinematics Equations of Robotic Manipulators (RESEARCH NOTE)

Kinematics, Singularity and Dexterity Analysis of Planar Parallel Manipulators Based on DH Method

Parallel manipulators have separate serial kinematic chains that are linked to the ground and the moving platform at the same time. They have some potential advantages over serial robot manipulators such as high accuracy, greater load capacity, high mechanical rigidity, high velocity and acceleration (Kang et al., 2001; Kang & Mills, 2001). Planar Parallel Manipulators (PPMs), performing two tr...