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Algorithms for Cardinality-Constrained Monotone DR-Submodular Maximization with Low Adaptivity and Query Complexity

Author

Listed:
  • Suning Gong

    (Qingdao University)

  • Qingqin Nong

    (Ocean University of China)

  • Jiazhu Fang

    (Ocean University of China)

  • Ding-Zhu Du

    (University of Texas)

Abstract

Submodular maximization is a NP-hard combinatorial optimization problem regularly used in machine learning and data mining with large-scale data sets. To quantify the running time of approximation algorithms, the query complexity and adaptive complexity are two important measures, where the adaptivity of an algorithm is the number of sequential rounds it makes when each round can execute polynomially many function evaluations in parallel. These two concepts reasonably quantify the efficiency and practicability of parallel computation. In this paper, we consider the problem of maximizing a nonnegative monotone DR-submodular function over a bounded integer lattice with a cardinality constraint in a value oracle model. Prior to our work, Soma and Yoshida (Math Program 172:539–563, 2018) have studied this problem and present an approximation algorithm with almost optimal approximate ratio and the same adaptivity and query complexity. We develop two novel algorithms, called low query algorithm and low adaptivity algorithm, which have approximation ratios equal to Soma and Yoshida (2018), but reach a new record of query complexity and adaptivity. As for methods, compared with the threshold greedy in Soma and Yoshida (2018), the low query algorithm reduces the number of possible thresholds and improves both the adaptivity and query complexity. The low adaptivity algorithm further integrates a vector sequencing technique to accelerate adaptive complexity in an exponential manner while only making logarithmic sacrifices on oracle queries.

Suggested Citation

  • Suning Gong & Qingqin Nong & Jiazhu Fang & Ding-Zhu Du, 2024. "Algorithms for Cardinality-Constrained Monotone DR-Submodular Maximization with Low Adaptivity and Query Complexity," Journal of Optimization Theory and Applications, Springer, vol. 200(1), pages 194-214, January.
  • Handle: RePEc:spr:joptap:v:200:y:2024:i:1:d:10.1007_s10957-023-02353-7
    DOI: 10.1007/s10957-023-02353-7
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    References listed on IDEAS

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