A Perturbed Value-Function-Based Interior-Point Method for Perturbed Pessimistic Bilevel Problems

Abstract

Bilevel optimizaiton serves as a powerful tool for many machine learning applications. Perturbed pessimistic bilevel problem PBPε, with ε being an arbitrary positive number, is a variant of the bilevel problem to deal with the case where there are multiple solutions in the lower level problem. However, the provably convergent algorithms for PBPε with a nonlinear lower level problem are lacking. To fill the gap, we consider in the paper the problem PBPε with a nonlinear lower level problem. By introducing a log-barrier function to replace the inequality constraint associated with the value function of the lower level problem, and approximating this value function, an algorithm named Perturbed Value-Function-based Interior-point Method(PVFIM) is proposed. We present a stationary condition for PBPε, which has not been given before, and we show that PVFIM can converge to a stationary point of PBPε. Finally, experiments are presented to verify the theoretical results and to show the application of the algorithm to GAN.