Mathieu Tanneau scite author profile

Motivated by the recent success of conic formulations for Mixed-Integer Convex Optimization (MI-CONV), we investigate the impact of disjunctive cutting planes for Mixed-Integer Conic Optimization (MI-CONIC). We show that conic strong duality, guaranteed by a careful selection of a novel normalization in the conic separation problem, as well as the numerical maturity of interior-point methods for conic optimization allow to solve the theoretical and numerical issues encountered by many authors since the late 90s. As a result, the proposed approach allows algorithmic flexibility in the way the conic separation problem is solved and the resulting cuts are shown to be computationally effective to close a significant amount of gap for a large collection of instances.

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Learning optimization proxies for large-scale Security-Constrained Economic Dispatch

Chen

Park

Tanneau

et al. 2022

Electric Power Systems Research

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Learning Optimization Proxies for Large-Scale Security-Constrained Economic Dispatch

Chen¹,

Park²,

Tanneau³

et al. 2021

Preprint

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The Security-Constrained Economic Dispatch (SCED) is a fundamental optimization model for Transmission System Operators (TSO) to clear real-time energy markets while ensuring reliable operations of power grids. In a context of growing operational uncertainty, due to increased penetration of renewable generators and distributed energy resources, operators must continuously monitor risk in real-time, i.e., they must quickly assess the system's behavior under various changes in load and renewable production. Unfortunately, systematically solving an optimization problem for each such scenario is not practical given the tight constraints of real-time operations. To overcome this limitation, this paper proposes to learn an optimization proxy for SCED, i.e., a Machine Learning (ML) model that can predict an optimal solution for SCED in milliseconds. Motivated by a principled analysis of the market-clearing optimizations of MISO, the paper proposes a novel ML pipeline that addresses the main challenges of learning SCED solutions, i.e., the variability in load, renewable output and production costs, as well as the combinatorial structure of commitment decisions. A novel Classification-Then-Regression architecture is also proposed, to further capture the behavior of SCED solutions. Numerical experiments are reported on the French transmission system, and demonstrate the approach's ability to produce, within a time frame that is compatible with real-time operations, accurate optimization proxies that produce relative errors below 0.6%.

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Learning Regionally Decentralized AC Optimal Power Flows With ADMM

Mak

Chatzos

Tanneau

et al. 2023

IEEE Trans. Smart Grid

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Mathieu Tanneau

A Decentralized Framework for the Optimal Coordination of Distributed Energy Resources

Disjunctive cuts in Mixed-Integer Conic Optimization

Learning optimization proxies for large-scale Security-Constrained Economic Dispatch

Learning Optimization Proxies for Large-Scale Security-Constrained Economic Dispatch

Learning Regionally Decentralized AC Optimal Power Flows With ADMM

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