Practical Algorithm for Solving Real Time Inverse Kinematics of Industrial 7R Robot

Abstract: The practical algorithm solves real time inverse kinematics of industrial 7R Robot. Here D-H method is used to set up a closed-form 4×4 matrix equation of the 7R Robot, and then sine and cosine of joint angles is transformed to complex exponential form, 10 equations in same form are obtained. We extract the coefficient of every term to construct a 16×16 real number matrix. And the inverse kinematics of 7R Robot can be changed into eigenvalues and eigenvectors problem. For the extra revolute joint of the 7R red… Show more

“…As shown in Fig.1 Eulerian angle γ is presumed, joint angles θ 1 -θ 6 can be obtained [8] .Since Eulerian angle γ is presumed, the solved joint angles θ 1 -θ 6 …”

An Optimization Algorithm for Redundant 7R Robot

“…As shown in Fig.1 Eulerian angle γ is presumed, joint angles θ 1 -θ 6 can be obtained [8] .Since Eulerian angle γ is presumed, the solved joint angles θ 1 -θ 6 …”

An Optimization Algorithm for Redundant 7R Robot

Biologically inspired deoxyribonucleic acid soft computing for inverse kinematics solver of five-DOF robotic manipulators

Comparison of four different heuristic optimization algorithms for the inverse kinematics solution of a real 4-DOF serial robot manipulator