The paper introduces a reconfigurable algorithm for optimal planning in HFSMs that precomputes machine exit costs to enable efficient queries and outperforms standard shortest-path algorithms on large instances.
This algorithm is given by Algorithm 5, where the subroutine Compute paths, given by Algorithm 6, computes the se- quences U1,
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Efficient Planning in Large-scale Systems Using Hierarchical Finite State Machines
The paper introduces a reconfigurable algorithm for optimal planning in HFSMs that precomputes machine exit costs to enable efficient queries and outperforms standard shortest-path algorithms on large instances.