Title of article :
Breadth-first heuristic search Original Research Article
Author/Authors :
Rong Zhou، نويسنده , , Eric A. Hansen، نويسنده ,
Issue Information :
روزنامه با شماره پیاپی سال 2006
Abstract :
Recent work shows that the memory requirements of A* and related graph-search algorithms can be reduced substantially by only storing nodes that are on or near the search frontier, using special techniques to prevent node regeneration, and recovering the solution path by a divide-and-conquer technique. When this approach is used to solve graph-search problems with unit edge costs, we show that a breadth-first search strategy can be more memory-efficient than a best-first strategy. We also show that a breadth-first strategy allows a technique for preventing node regeneration that is easier to implement and can be applied more widely. The breadth-first heuristic search algorithms introduced in this paper include a memory-efficient implementation of breadth-first branch-and-bound search and a breadth-first iterative-deepening A* algorithm that is based on it. Computational results show that they outperform other systematic search algorithms in solving a range of challenging graph-search problems.
Keywords :
Branch-and-bound search , Memory-limited graph search , Planning , Heuristic search
Journal title :
Artificial Intelligence
Journal title :
Artificial Intelligence