First- and Second-Order Bounds for Adversarial Linear Contextual Bandits
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We consider the adversarial linear contextual bandit setting, which allows for the loss functions associated with each of K arms to change over time without restriction. Assuming the d-dimensional contexts are drawn from a fixed known distribution, the worst-case expected regret over the course of T rounds is known to scale as Õ(√(Kd T)). Under the additional assumption that the density of the contexts is log-concave, we obtain a second-order bound of order Õ(K√(d V_T)) in terms of the cumulative second moment of the learner's losses V_T, and a closely related first-order bound of order Õ(K√(d L_T^*)) in terms of the cumulative loss of the best policy L_T^*. Since V_T or L_T^* may be significantly smaller than T, these improve over the worst-case regret whenever the environment is relatively benign. Our results are obtained using a truncated version of the continuous exponential weights algorithm over the probability simplex, which we analyse by exploiting a novel connection to the linear bandit setting without contexts.
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