MATLAB EXERCISE4 This exercise focuses on the inverse-pose kinematics solution for the planar 3-DOF 3R robot...
Question 3 a) For the 3-DoF robot in Figure 3, draw the frames if the D-H convention is used b) Using the D-H frames, express rotation matrix R as a function of 8,8... c) Solve the inverse kinematics problem, that is, 0.0... given a desired orientation defined by the rotation matrix: - Jq4. where d) Express the Jacobian matrix for the relationship velocity of frame 3 expressed within frame o. is the absolute angular Figure 3: 3-Dof robot with the...
MATLAB EXERCISE 5 This exercise focuses on the Jacobian matrix and determinant, simulated resolved-rate control, and inverse statics for the planar 3-DOF, 3R robot. (See Figures 3.6 and 3.7; the DH parameters are given in Figure 3.8.) The resolved-rate control method [9] is based on the manipulator velocity equation x = kve, where ky is the Jacobian matrix, is the vector of relative joint rates, X is the vector of commanded Cartesian velocities (both translational and rotational), and k is...