A Canonical Structure for Constructing Projected First-Order Algorithms With Delayed Feedback
Optimization and Control
2026-04-06 v1 Systems and Control
Systems and Control
Abstract
This work introduces a canonical structure for a broad class of unconstrained first-order algorithms that admit a Lur'e representation, including systems with relative degree greater than one, e.g., systems with delayed gradient feedback. The proposed canonical structure is obtained through a simple linear transformation. It enables a direct extension from unconstrained optimization algorithms to set-constrained ones through projection in a Lyapunov-induced norm. The resulting projected algorithms attain the optimal solution while preserving the convergence rates of their unconstrained counterparts.
Cite
@article{arxiv.2604.02762,
title = {A Canonical Structure for Constructing Projected First-Order Algorithms With Delayed Feedback},
author = {Mengmou Li and Yu Zhou and Xun Shen and Masaaki Nagahara},
journal= {arXiv preprint arXiv:2604.02762},
year = {2026}
}
Comments
submitted to CDC2026