Stochastic Top-K Subset Bandits with Linear Space and Non-Linear Feedback
Mridul Agarwal, Vaneet Aggarwal, Christopher J. Quinn, Abhishek K. Umrawal
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Many real-world problems like Social Influence Maximization face the dilemma of choosing the best K out of N options at a given time instant. This setup can be modeled as a combinatorial bandit which chooses K out of N arms at each time, with an aim to achieve an efficient trade-off between exploration and exploitation. This is the first work for combinatorial bandits where the feedback received can be a non-linear function of the chosen K arms. The direct use of multi-armed bandit requires choosing among N-choose-K options making the state space large. In this paper, we present a novel algorithm which is computationally efficient and the storage is linear in N. The proposed algorithm is a divide-and-conquer based strategy, that we call CMAB-SM. Further, the proposed algorithm achieves a regret bound of O(K^12N^13T^23) for a time horizon T, which is sub-linear in all parameters T, N, and K. %When applied to the problem of Social Influence Maximization, the performance of the proposed algorithm surpasses the UCB algorithm and some more sophisticated domain-specific methods.