Combinatorial Bandits for Maximum Value Reward Function under Value-index Feedback
- Yiliu Wang ,
- Wei Chen ,
- Milan Vojnovic
Proceedings of the 12th International Conference on Learning Representations (ICLR) |
We investigate the combinatorial multi-armed bandit problem where an action is to select k arms from a set of base arms, and its reward is the maximum of the sample values of these k arms, under a weak feedback structure that only returns the value and index of the arm with the maximum value. This novel feedback structure is much weaker than the semi-bandit feedback previously studied and is only slightly stronger than the full-bandit feedback, and thus it presents a new challenge for the online learning task. We propose an algorithm and derive a regret bound for instances where arm outcomes follow distributions with finite supports. Our algorithm introduces a novel concept of biased arm replacement to address the weak feedback challenge, and it achieves a distribution-dependent regret bound of O((nk/Δ) log(T)) and a distribution-independent regret bound of $\tilde{O}(\sqrt{nkT})$, where Δ is the reward gap and T is the time horizon. Notably, our regret bound is comparable to the bounds obtained under the more informative semi-bandit feedback. We demonstrate the effectiveness of our algorithm through experimental results.