Adversarial Combinatorial Semi-bandits with Graph Feedback
February 26, 2025 ยท Declared Dead ยท ๐ International Conference on Machine Learning
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Authors
Yuxiao Wen
arXiv ID
2502.18826
Category
cs.LG: Machine Learning
Cross-listed
cs.IT,
stat.ML
Citations
1
Venue
International Conference on Machine Learning
Last Checked
4 months ago
Abstract
In combinatorial semi-bandits, a learner repeatedly selects from a combinatorial decision set of arms, receives the realized sum of rewards, and observes the rewards of the individual selected arms as feedback. In this paper, we extend this framework to include \emph{graph feedback}, where the learner observes the rewards of all neighboring arms of the selected arms in a feedback graph $G$. We establish that the optimal regret over a time horizon $T$ scales as $\widetildeฮ(S\sqrt{T}+\sqrt{ฮฑST})$, where $S$ is the size of the combinatorial decisions and $ฮฑ$ is the independence number of $G$. This result interpolates between the known regrets $\widetildeฮ(S\sqrt{T})$ under full information (i.e., $G$ is complete) and $\widetildeฮ(\sqrt{KST})$ under the semi-bandit feedback (i.e., $G$ has only self-loops), where $K$ is the total number of arms. A key technical ingredient is to realize a convexified action using a random decision vector with negative correlations. We also show that online stochastic mirror descent (OSMD) that only realizes convexified actions in expectation is suboptimal. In addition, we describe the problem of \emph{combinatorial semi-bandits with general capacity} and apply our results to derive an improved regret upper bound, which may be of independent interest.
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