English

Complexity guarantees for risk-neutral generalized Nash equilibrium problems

Optimization and Control 2025-06-16 v1

Abstract

In this paper, we address \ac{SGNEP} seeking with risk-neutral agents. Our main contribution lies the development of a stochastic variance-reduced gradient (SVRG) technique, modified to contend with general sample spaces, within a stochastic forward-backward-forward splitting scheme for resolving structured monotone inclusion problems. This stochastic scheme is a double-loop method, in which the mini-batch gradient estimator is computed periodically in the outer loop, while only cheap sampling is required in a frequently activated inner loop, thus achieving significant speed-ups when sampling costs cannot be overlooked. The algorithm is fully distributed and it guarantees almost sure convergence under appropriate batch size and strong monotonicity assumptions. Moreover, it exhibits a linear rate with possible biased estimators, which is rather mild and imposed in many simulation-based optimization schemes. Under monotone regimes, the expectation of the gap function of an averaged iterate diminishes at a suitable sublinear rate while the sample-complexity of computing an ϵ\epsilon-solution is provably O(ϵ3)\mathcal{O}(\epsilon^{-3}). A numerical study on a class of networked Cournot games reflects the performance of our proposed algorithm.

Keywords

Cite

@article{arxiv.2506.11409,
  title  = {Complexity guarantees for risk-neutral generalized Nash equilibrium problems},
  author = {Haochen Tao and Andrea Iannelli and Meggie Marschner and Mathias Staudigl and Uday V. Shanbhag and Shisheng Cui},
  journal= {arXiv preprint arXiv:2506.11409},
  year   = {2025}
}
R2 v1 2026-07-01T03:15:05.087Z