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Award ID contains: 2149588

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  1. ; ; ; (, AAMAS 2025)
    Free, publicly-accessible full text available May 22, 2026
  2. ; (, Neuriips 2024)
    Free, publicly-accessible full text available December 14, 2025
  3. ; ; (, Neurips 2024)
    Free, publicly-accessible full text available December 12, 2025
  4. (, ICLR)
  5. ; ; ; (, The Twelfth International Conference on Learning Representations)
    Accepted Manuscript Full Text Available
  6. (, AAAI)
  7. (, Advances in Neural Information Processing Systems)
    This paper presents a unified approach for maximizing continuous DRsubmodular functions that encompasses a range of settings and oracle access types. Our approach includes a Frank-Wolfe type offline algorithm for both monotone and non-monotone functions, with different restrictions on the general convex set. We consider settings where the oracle provides access to either the gradient of the function or only the function value, and where the oracle access is either deterministic or stochastic. We determine the number of required oracle accesses in all cases. Our approach gives new/improved results for nine out of the sixteen considered cases, avoids computationally expensive projections in three cases, with the proposed framework matching performance of state-of-the-art approaches in the remaining four cases. Notably, our approach for the stochastic function valuebased oracle enables the first regret bounds with bandit feedback for stochastic DR-submodular functions. 
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  8. (, AISTATS)
  9. (, International Conference on Machine Learning)
  10. ; ; ; (, IEEE Transactions on Information Theory)
    Full Text Available