Regularized Unconstrained Weakly Submodular Maximization

Submodular optimization finds applications in machine learning and data mining. In this paper, we study the problem of maximizing functions of the form \(h = f-c\), where \(f\) is a monotone, non-negative, weakly submodular set function and \(c\) is a modular function. We design a deterministic appr...

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Bibliographic Details
Published in:arXiv.org
Main Authors: Zhu, Yanhui, Basu, Samik, Pavan, A
Format: Paper
Language:English
Published: Ithaca Cornell University Library, arXiv.org 19.08.2024
Subjects:
Algorithms
Approximation
Data mining
Machine learning
Maximization
Optimization
ISSN:2331-8422
Online Access:Get full text
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Summary:Submodular optimization finds applications in machine learning and data mining. In this paper, we study the problem of maximizing functions of the form \(h = f-c\), where \(f\) is a monotone, non-negative, weakly submodular set function and \(c\) is a modular function. We design a deterministic approximation algorithm that runs with \({{O}}(\frac{n}{\epsilon}\log \frac{n}{\gamma \epsilon})\) oracle calls to function \(h\), and outputs a set \({S}\) such that \(h({S}) \geq \gamma(1-\epsilon)f(OPT)-c(OPT)-\frac{c(OPT)}{\gamma(1-\epsilon)}\log\frac{f(OPT)}{c(OPT)}\), where \(\gamma\) is the submodularity ratio of \(f\). Existing algorithms for this problem either admit a worse approximation ratio or have quadratic runtime. We also present an approximation ratio of our algorithm for this problem with an approximate oracle of \(f\). We validate our theoretical results through extensive empirical evaluations on real-world applications, including vertex cover and influence diffusion problems for submodular utility function \(f\), and Bayesian A-Optimal design for weakly submodular \(f\). Our experimental results demonstrate that our algorithms efficiently achieve high-quality solutions.
Bibliography:SourceType-Working Papers-1
ObjectType-Working Paper/Pre-Print-1
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ISSN:2331-8422
DOI:10.48550/arxiv.2408.04620