Path optimization for the resource‐constrained searcher |
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| Authors: | Hiroyuki Sato Johannes O. Royset |
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| Affiliation: | Operations Research Department, Naval Postgraduate School, Monterey, California |
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| Abstract: | We formulate and solve a discrete‐time path‐optimization problem where a single searcher, operating in a discretized three‐dimensional airspace, looks for a moving target in a finite set of cells. The searcher is constrained by maximum limits on the consumption of one or more resources such as time, fuel, and risk along any path. We develop a specialized branch‐and‐bound algorithm for this problem that uses several network reduction procedures as well as a new bounding technique based on Lagrangian relaxation and network expansion. The resulting algorithm outperforms a state‐of‐the‐art algorithm for solving time‐constrained problems and also is the first algorithm to solve multi‐constrained problems. © 2010 Wiley Periodicals, Inc. Naval Research Logistics, 2010 |
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| Keywords: | search theory branch‐and‐bound algorithm military applications |
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