Pandora's box problem with time constraints

The Pandora's Box problem models the search for the best alternative when evaluation is costly. In the simplest variant, a decision maker is presented with n boxes, each associated with a cost of inspection and a hidden random reward. The decision maker inspects a subset of these boxes one afte...

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Vydáno v:Artificial intelligence Ročník 349; s. 104426
Hlavní autoři: Amanatidis, Georgios, Berger, Ben, Ezra, Tomer, Feldman, Michal, Fusco, Federico, Reiffenhäuser, Rebecca, Tsikiridis, Artem
Médium: Journal Article
Jazyk:angličtina
Vydáno: Elsevier B.V 01.12.2025
Témata:
Adaptivity gap
Pandora's box problem
Time constraints
Pandora's box problem
Adaptivity gap
Time constraints
ISSN:0004-3702
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Shrnutí:The Pandora's Box problem models the search for the best alternative when evaluation is costly. In the simplest variant, a decision maker is presented with n boxes, each associated with a cost of inspection and a hidden random reward. The decision maker inspects a subset of these boxes one after the other, in a possibly adaptive order, and gains the difference between the largest revealed reward and the sum of the inspection costs. Although this classic version is well understood (Weitzman 1979), there is a flourishing recent literature on variants of the problem. Here we introduce a general framework—the Pandora's Box Over Time problem—that captures a wide range of variants where time plays a role, e.g., by constraining the schedules of exploration and influencing costs and rewards. In our framework, boxes have time-dependent rewards and costs, whereas inspection may require a box-specific processing time. Moreover, once a box is inspected, its reward may deteriorate over time. Our main result is an efficient constant-factor approximation to the optimal strategy for the Pandora's Box Over Time problem, which is generally NP-hard to compute. We further obtain improved results for the natural special cases where boxes have no processing time, boxes are available only in specific time slots, or when costs and reward distributions are time-independent (but rewards may still deteriorate after inspection). •We introduce a unified framework incorporating time into the Pandora's Box problem, capturing time-dependent costs, processing delays, and reward deterioration.•Our framework generalizes existing models, including instant inspection, time slots, and other natural restrictions.•Our work addresses key open directions raised in foundational works—e.g., Weitzman [1] and Olszewski and Weber [2].
ISSN:0004-3702
DOI:10.1016/j.artint.2025.104426