Approximation and Parameterized Complexity of Minimax Approval Voting

July 26, 2016 Β· Declared Dead Β· πŸ› AAAI Conference on Artificial Intelligence

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Authors Marek Cygan, Łukasz Kowalik, Arkadiusz SocaΕ‚a, Krzysztof Sornat arXiv ID 1607.07906 Category cs.DS: Data Structures & Algorithms Cross-listed cs.AI, cs.GT, cs.MA Citations 15 Venue AAAI Conference on Artificial Intelligence Last Checked 3 months ago
Abstract
We present three results on the complexity of Minimax Approval Voting. First, we study Minimax Approval Voting parameterized by the Hamming distance $d$ from the solution to the votes. We show Minimax Approval Voting admits no algorithm running in time $\mathcal{O}^\star(2^{o(d\log d)})$, unless the Exponential Time Hypothesis (ETH) fails. This means that the $\mathcal{O}^\star(d^{2d})$ algorithm of Misra et al. [AAMAS 2015] is essentially optimal. Motivated by this, we then show a parameterized approximation scheme, running in time $\mathcal{O}^\star(\left({3}/Ξ΅\right)^{2d})$, which is essentially tight assuming ETH. Finally, we get a new polynomial-time randomized approximation scheme for Minimax Approval Voting, which runs in time $n^{\mathcal{O}(1/Ξ΅^2 \cdot \log(1/Ξ΅))} \cdot \mathrm{poly}(m)$, almost matching the running time of the fastest known PTAS for Closest String due to Ma and Sun [SIAM J. Comp. 2009].
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