Abstract
We propose a methodology to automatically generate plans for a robot excavator like a bucket loader or a backhoe. The task is formulated as one of constrained optimization in an actkm space that is spanned by the parameters of a prototypical digging plan. We show how geometric and force constraints are lmposed on the action space to build the set of feasible plans, and discuss methods to optimize a cost function within this set. We discuss recent simulation results that demonstrate this method in action.
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