Linear Query Approximation Algorithms for Non-monotone Submodular Maximization under Knapsack Constraint
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This work, for the first time, introduces two constant factor approximation algorithms with linear query complexity for non-monotone submodular maximization over a ground set of size n subject to a knapsack constraint, 𝖣𝖫𝖠 and 𝖱𝖫𝖠. 𝖣𝖫𝖠 is a deterministic algorithm that provides an approximation factor of 6+ϵ while 𝖱𝖫𝖠 is a randomized algorithm with an approximation factor of 4+ϵ. Both run in O(n log(1/ϵ)/ϵ) query complexity. The key idea to obtain a constant approximation ratio with linear query lies in: (1) dividing the ground set into two appropriate subsets to find the near-optimal solution over these subsets with linear queries, and (2) combining a threshold greedy with properties of two disjoint sets or a random selection process to improve solution quality. In addition to the theoretical analysis, we have evaluated our proposed solutions with three applications: Revenue Maximization, Image Summarization, and Maximum Weighted Cut, showing that our algorithms not only return comparative results to state-of-the-art algorithms but also require significantly fewer queries.
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