Online Convex Optimization with Unconstrained Domains and Losses

Part of Advances in Neural Information Processing Systems 29 (NIPS 2016)

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Authors

Ashok Cutkosky, Kwabena A. Boahen

Abstract

We propose an online convex optimization algorithm (RescaledExp) that achieves optimal regret in the unconstrained setting without prior knowledge of any bounds on the loss functions. We prove a lower bound showing an exponential separation between the regret of existing algorithms that require a known bound on the loss functions and any algorithm that does not require such knowledge. RescaledExp matches this lower bound asymptotically in the number of iterations. RescaledExp is naturally hyperparameter-free and we demonstrate empirically that it matches prior optimization algorithms that require hyperparameter optimization.