Cycles in adversarial regularized learning


Abstract in English

Regularized learning is a fundamental technique in online optimization, machine learning and many other fields of computer science. A natural question that arises in these settings is how regularized learning algorithms behave when faced against each other. We study a natural formulation of this problem by coupling regularized learning dynamics in zero-sum games. We show that the systems behavior is Poincare recurrent, implying that almost every trajectory revisits any (arbitrarily small) neighborhood of its starting point infinitely often. This cycling behavior is robust to the agents choice of regularization mechanism (each agent could be using a different regularizer), to positive-affine transformations of the agents utilities, and it also persists in the case of networked competition, i.e., for zero-sum polymatrix games.

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