#### Efficient online algorithms for fast-rate regret bounds under sparsity

Part of Advances in Neural Information Processing Systems 31 (NeurIPS 2018)

#### Authors

*Pierre Gaillard, Olivier Wintenberger*

#### Abstract

We consider the problem of online convex optimization in two different settings: arbitrary and i.i.d. sequence of convex loss functions. In both settings, we provide efficient algorithms whose cumulative excess risks are controlled with fast-rate sparse bounds.
First, the excess risks bounds depend on the sparsity of the objective rather than on the dimension of the parameters space. Second, their rates are faster than the slow-rate $1/\sqrt{T}$ under additional convexity assumptions on the loss functions. In the adversarial setting, we develop an algorithm BOA+ whose cumulative excess risks is controlled by several bounds with different trade-offs between sparsity and rate for strongly convex loss functions. In the i.i.d. setting under the Ćojasiewicz's assumption, we establish new risk bounds that are sparse with a rate adaptive to the convexity of the risk (ranging from a rate $1/\sqrt{T}$ for general convex risk to $1/T$ for strongly convex risk). These results generalize previous works on sparse online learning under weak assumptions on the risk.