The weighted majority algorithm
Information and Computation
A game of prediction with expert advice
Journal of Computer and System Sciences - Special issue on the eighth annual workshop on computational learning theory, July 5–8, 1995
Predicting a binary sequence almost as well as the optimal biased coin
Information and Computation
Efficient algorithms for online decision problems
Journal of Computer and System Sciences - Special issue: Learning theory 2003
Prediction, Learning, and Games
Prediction, Learning, and Games
Improved second-order bounds for prediction with expert advice
COLT'05 Proceedings of the 18th annual conference on Learning Theory
Regret to the best vs. regret to the average
Machine Learning
SODA '10 Proceedings of the twenty-first annual ACM-SIAM symposium on Discrete Algorithms
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We study online regret minimization algorithms in a bicriteria setting, examining not only the standard notion of regret to the best expert, but also the regret to the average of all experts, the regret to any fixed mixture of experts, and the regret to the worst expert. This study leads both to new understanding of the limitations of existing no-regret algorithms, and to new algorithms with novel performance guarantees. More specifically, we show that any algorithm that achieves only O(√T) cumulative regret to the best expert on a sequence of T trials must, in the worst case, suffer regret Ω(√T) to the average, and that for a wide class of update rules that includes many existing no-regret algorithms (such as Exponential Weights and Follow the Perturbed Leader), the product of the regret to the best and the regret to the average is Ω(T). We then describe and analyze a new multi-phase algorithm, which achieves cumulative regret only O(√T log T) to the best expert and has only constant regret to any fixed distribution over experts (that is, with no dependence on either T or the number of experts N). The key to the new algorithm is the gradual increase in the "aggressiveness" of updates in response to observed divergences in expert performances.