用预测在欧几里得空间中搜索

arXiv - CS - Computational Geometry Pub Date : 2024-08-09 DOI:arxiv-2408.04964

Sergio Cabello, Panos Giannopoulos

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引用次数: 0

摘要

我们研究的问题是，当有关目标位置的额外信息以预测的形式存在时，如何在$\mathbb{R}^d$中的某个未知位置搜索目标。在我们的设置中，预测结果是目标的近似距离：对于搜索者访问的 \mathbb{R}^d$ 中的每个点 $p，我们都会得到一个值 $/lambda(p)$，使得 $|p\mathbf{t}|\le\lambda(p) \le c\cdot |p\mathbf{t}|$ 、其中 $c\ge 1$ 是一个固定常数，$\mathbf{t}$ 是目标的位置，$|p\mathbf{t}|$ 是 $p$ 到 $\mathbf{t}$ 的欧几里得距离。搜索成本是搜索者所走路径的长度。我们的主要正面结果是，即使常数 $c$ 未知，也能实现 $(12c)^{d+1}$ 竞争比的策略。我们还给出了$\mathbb{R}^d$中任何搜索策略的竞争率的下限，大约为$(c/16)^{d-1}$。

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Searching in Euclidean Spaces with Predictions

We study the problem of searching for a target at some unknown location in $\mathbb{R}^d$ when additional information regarding the position of the target is available in the form of predictions. In our setting, predictions come as approximate distances to the target: for each point $p\in \mathbb{R}^d$ that the searcher visits, we obtain a value $\lambda(p)$ such that $|p\mathbf{t}|\le \lambda(p) \le c\cdot |p\mathbf{t}|$, where $c\ge 1$ is a fixed constant, $\mathbf{t}$ is the position of the target, and $|p\mathbf{t}|$ is the Euclidean distance of $p$ to $\mathbf{t}$. The cost of the search is the length of the path followed by the searcher. Our main positive result is a strategy that achieves $(12c)^{d+1}$-competitive ratio, even when the constant $c$ is unknown. We also give a lower bound of roughly $(c/16)^{d-1}$ on the competitive ratio of any search strategy in $\mathbb{R}^d$.

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arXiv - CS - Computational Geometry

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