CS LANGUAGE CONCEPT: A NEW APPROACH TO ROBOT MOTION DESIGN.
Abstract
Current robot control techniques are primarily concerned with position control and, recently, force control, where a motion planner is used primarily to compute set point changes. The actual control system is fixed and internal, and cannot be modified easily through software. Current robot languages are also limited in their ability to specify changes to the control structure. For compliant motion, such as assembly, one needs more flexibility in the control system, i. e. , an ability to tailor the controller to the task. A high-level CS language (Control System) is developed which makes it possible to specify compliant control tasks as vector equations and inequalities which relate sensed and controlled variables. It is shown how such requirements can be reformulated as an objective function of an optimization process subject to constraints arising from the dynamic equations involved. Five examples are presented to illustrate the various ideas.