Multi-objective search game: Long-term vs short-term

This study focuses on investigating a multi-objective search allocation game problem, specifically addressing the distribution of a search budget (player 1) across a searched area to detect an evading target (player 2). The game is defined as a two-person zero-sum game, as an optimal search strategy...

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Vydáno v:Computers & operations research Ročník 164; s. 106551
Hlavní autor: Delavernhe, Florian
Médium: Journal Article
Jazyk:angličtina
Vydáno: Elsevier Ltd 01.04.2024
Elsevier
Témata:
Engineering Sciences
Game theory
Multiobjective optimization
Search game
ε-constraint
ε-constraint
Game theory
Search game
Multiobjective optimization
Game theory Search game Multiobjective optimization ε-constraint
ISSN:0305-0548, 1873-765X
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Shrnutí:This study focuses on investigating a multi-objective search allocation game problem, specifically addressing the distribution of a search budget (player 1) across a searched area to detect an evading target (player 2). The game is defined as a two-person zero-sum game, as an optimal search strategy must consider the target’s optimal evasion strategy. Traditionally, the sole objective function in search theory literature has been to maximize the detection probability at the end of the time horizon. Our work extends the problem by proposing a multi-objective formulation that aims to strike a balance between long-term and short-term search objectives. In this context, the goal is to maximize the detection probability of the target at the end of each time period (e.g., hourly) throughout the time horizon. The main challenge in this problem lies in handling a multitude of objective functions, where the number of objective functions is an input data. To the best of our knowledge, no prior research has explored the multi-objective search allocation game. Therefore, we meticulously study the significance of this problem by highlighting the disparities and conflicts among these objectives. Subsequently, we propose a solution approach based on the epsilon-constraint algorithm, as well as a heuristic method that decomposes the problem into smaller multi-objective subproblems. We conduct a series of experiments to evaluate two key aspects of the methods: computation time and quality. •Long-term and short-term are optimized in this search allocation game.•Experimental studies reveal conflicts between the objectives functions.•Non-evading targets and unrestricted targets special cases are examined.•Solution methods are proposed, using epsilon-constraint mechanisms.•Experiments are conducted to examine the quality of solutions and computation times
ISSN:0305-0548
1873-765X
DOI:10.1016/j.cor.2024.106551