Title :
On the use of scaling matrices for task-specific robot design
Author :
Stocco, Leo J. ; Salcudean, S.E. ; Sassani, F.
Author_Institution :
British Columbia Univ., Vancouver, BC, Canada
fDate :
10/1/1999 12:00:00 AM
Abstract :
Good robot performance often relies upon the selection of design parameters that lead to a well conditioned Jacobian or impedance “design” matrix. In this paper, a new design matrix normalization technique is presented to handle the problem of nonhomogeneous physical units and to provide a means of specifying a performance based design goal. The technique pre- and post-multiplies a design matrix by scaling matrices corresponding to a range of joint and task space variables. The task-space scale factors are used to set the relative required strength or speed along any axes of end point motion while the joint-space scale factors are treated as free design parameters to improve isotropy through nonhomogeneous actuation. The effect of scaling on actual designs is illustrated by a number of design examples using a global search method previously developed by the authors
Keywords :
Jacobian matrices; control system synthesis; impedance matrix; optimisation; robots; search problems; Jacobian matrix; impedance matrix; isotropy; optimisation; robot design; scaling matrix; search method; task-space scale factors; task-specific design; worst case design; Computational geometry; Design optimization; Hydraulic actuators; Impedance; Jacobian matrices; Length measurement; Manipulators; Parallel robots; Pneumatic actuators; Search methods;
Journal_Title :
Robotics and Automation, IEEE Transactions on
