多边形上的多代理搜索型问题

Konstantinos Georgiou, Caleb Jones, Jesse Lucier
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引用次数: 0

摘要

我们介绍了在无线模型下,针对在二维空间中行动的移动特工舰队的搜索类问题所取得的若干进展。潜在的隐藏目标位置与中心点距离相等,形成一个圆盘(无限可能位置)或规则多边形(有限可能位置)。在基础圆盘疏散问题、具有 $k$ Servants 的圆盘优先疏散问题和圆盘 $w$ 加权搜索问题的基础上,我们在几个方面进行了改进。首先,我们为具有 1$ Servant 的 $n$-gon 优先疏散问题建立了新的上限和下限,其中 $n \leq13$ 和 $n_k$-gon 具有 $k=2、3、4$ Servant,其中 $n_2 \leq 11$、$n_3\leq 9$ 和 $n_4 \leq 10$,提供了严格或接近严格的边界。之前已知的结果只有 $k=1$ 和 $n=6$ 时的严格上限和 $k=1$ 和 $n\leq 9$ 时的下限。第三,我们改进了磁盘 $w$ 加权分组搜索问题的已知最佳下界,显著缩小了差距最大的 $w$ 值的最佳上界和下界之间的差距。这些改进基于对 $11$-gon 和 $12$-gon$w$ 加权疏散问题的近乎严密的上界和下界,而之前的分析仅局限于下界,而且只针对 $7$-gon 。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Multi-Agent Search-Type Problems on Polygons
We present several advancements in search-type problems for fleets of mobile agents operating in two dimensions under the wireless model. Potential hidden target locations are equidistant from a central point, forming either a disk (infinite possible locations) or regular polygons (finite possible locations). Building on the foundational disk evacuation problem, the disk priority evacuation problem with $k$ Servants, and the disk $w$-weighted search problem, we make improvements on several fronts. First we establish new upper and lower bounds for the $n$-gon priority evacuation problem with $1$ Servant for $n \leq 13$, and for $n_k$-gons with $k=2, 3, 4$ Servants, where $n_2 \leq 11$, $n_3 \leq 9$, and $n_4 \leq 10$, offering tight or nearly tight bounds. The only previous results known were a tight upper bound for $k=1$ and $n=6$ and lower bounds for $k=1$ and $n \leq 9$. Second, our work improves the best lower bound known for the disk priority evacuation problem with $k=1$ Servant from $4.46798$ to $4.64666$ and for $k=2$ Servants from $3.6307$ to $3.65332$. Third, we improve the best lower bounds known for the disk $w$-weighted group search problem, significantly reducing the gap between the best upper and lower bounds for $w$ values where the gap was largest. These improvements are based on nearly tight upper and lower bounds for the $11$-gon and $12$-gon $w$-weighted evacuation problems, while previous analyses were limited only to lower bounds and only to $7$-gons.
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