On the Complexity of Knapsack under Explorable Uncertainty: Hardness and Algorithms
July 03, 2025 Β· Declared Dead Β· π Embedded Systems and Applications
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Authors
Jens SchlΓΆter
arXiv ID
2507.02657
Category
cs.DS: Data Structures & Algorithms
Citations
1
Venue
Embedded Systems and Applications
Last Checked
4 months ago
Abstract
In the knapsack problem under explorable uncertainty, we are given a knapsack instance with uncertain item profits. Instead of having access to the precise profits, we are only given uncertainty intervals that are guaranteed to contain the corresponding profits. The actual item profit can be obtained via a query. The goal of the problem is to adaptively query item profits until the revealed information suffices to compute an optimal (or approximate) solution to the underlying knapsack instance. Since queries are costly, the objective is to minimize the number of queries. In the offline variant of this problem, we assume knowledge of the precise profits and the task is to compute a query set of minimum cardinality that a third party without access to the profits could use to identify an optimal (or approximate) knapsack solution. We show that this offline variant is complete for the second-level of the polynomial hierarchy, i.e., $Ξ£_2^p$-complete, and cannot be approximated within a non-trivial factor unless $Ξ£_2^p = Ξ_2^p$. Motivated by these strong hardness results, we consider a resource-augmented variant of the problem where the requirements on the query set computed by an algorithm are less strict than the requirements on the optimal solution we compare against. More precisely, a query set computed by the algorithm must reveal sufficient information to identify an approximate knapsack solution, while the optimal query set we compare against has to reveal sufficient information to identify an optimal solution. We show that this resource-augmented setting allows interesting non-trivial algorithmic results.
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