Machine Learning for Fairness-Aware Load Shedding: A Real-Time Solution via Identifying Binding Constraints: Preprint

Yuqi Zhou; Joseph Severino; Sanjana Vijayshankar; Juliette Ugirumurera; Jibo Sanyal

Machine Learning for Fairness-Aware Load Shedding: A Real-Time Solution via Identifying Binding Constraints: Preprint

National Laboratory of the Rockies

Research output: Contribution to conference › Paper

Abstract

Timely and effective load shedding in power systems is critical for maintaining supply-demand balance and preventing cascading blackouts. To eliminate load shedding bias against specific regions in the system, optimization-based methods are uniquely positioned to help balance between economic and fairness considerations. However, the resulting optimization problem involves complex constraints, which can be time-consuming to solve and thus cannot meet the real-time requirements of load shedding. To tackle this challenge, in this paper we present an efficient machine learning algorithm to enable millisecond-level computation for the optimization-based load shedding problem. Numerical studies on both a 3-bus toy example and a realistic RTS-GMLC system have demonstrated the validity and efficiency of the proposed algorithm for delivering fairness-aware and real-time load shedding decisions.

Original language	American English
Number of pages	9
State	Published - 2026
Event	American Control Conference (ACC2025) - Denver, CO Duration: 8 Jul 2025 → 10 Jul 2025

Conference

Conference	American Control Conference (ACC2025)
City	Denver, CO
Period	8/07/25 → 10/07/25

NLR Publication Number

NLR/CP-5D00-90881

Keywords

binding constraints
equitable decisions
machine learning
optimal load shedding
optimality analysis

Access to Document

https://www.nlr.gov/docs/fy26osti/90881.pdf

Cite this

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title = "Machine Learning for Fairness-Aware Load Shedding: A Real-Time Solution via Identifying Binding Constraints: Preprint",

abstract = "Timely and effective load shedding in power systems is critical for maintaining supply-demand balance and preventing cascading blackouts. To eliminate load shedding bias against specific regions in the system, optimization-based methods are uniquely positioned to help balance between economic and fairness considerations. However, the resulting optimization problem involves complex constraints, which can be time-consuming to solve and thus cannot meet the real-time requirements of load shedding. To tackle this challenge, in this paper we present an efficient machine learning algorithm to enable millisecond-level computation for the optimization-based load shedding problem. Numerical studies on both a 3-bus toy example and a realistic RTS-GMLC system have demonstrated the validity and efficiency of the proposed algorithm for delivering fairness-aware and real-time load shedding decisions.",

keywords = "binding constraints, equitable decisions, machine learning, optimal load shedding, optimality analysis",

author = "Yuqi Zhou and Joseph Severino and Sanjana Vijayshankar and Juliette Ugirumurera and Jibo Sanyal",

year = "2026",

language = "American English",

note = "American Control Conference (ACC2025) ; Conference date: 08-07-2025 Through 10-07-2025",

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TY - CONF

T1 - Machine Learning for Fairness-Aware Load Shedding: A Real-Time Solution via Identifying Binding Constraints: Preprint

AU - Zhou, Yuqi

AU - Severino, Joseph

AU - Vijayshankar, Sanjana

AU - Ugirumurera, Juliette

AU - Sanyal, Jibo

PY - 2026

Y1 - 2026

N2 - Timely and effective load shedding in power systems is critical for maintaining supply-demand balance and preventing cascading blackouts. To eliminate load shedding bias against specific regions in the system, optimization-based methods are uniquely positioned to help balance between economic and fairness considerations. However, the resulting optimization problem involves complex constraints, which can be time-consuming to solve and thus cannot meet the real-time requirements of load shedding. To tackle this challenge, in this paper we present an efficient machine learning algorithm to enable millisecond-level computation for the optimization-based load shedding problem. Numerical studies on both a 3-bus toy example and a realistic RTS-GMLC system have demonstrated the validity and efficiency of the proposed algorithm for delivering fairness-aware and real-time load shedding decisions.

AB - Timely and effective load shedding in power systems is critical for maintaining supply-demand balance and preventing cascading blackouts. To eliminate load shedding bias against specific regions in the system, optimization-based methods are uniquely positioned to help balance between economic and fairness considerations. However, the resulting optimization problem involves complex constraints, which can be time-consuming to solve and thus cannot meet the real-time requirements of load shedding. To tackle this challenge, in this paper we present an efficient machine learning algorithm to enable millisecond-level computation for the optimization-based load shedding problem. Numerical studies on both a 3-bus toy example and a realistic RTS-GMLC system have demonstrated the validity and efficiency of the proposed algorithm for delivering fairness-aware and real-time load shedding decisions.

KW - binding constraints

KW - equitable decisions

KW - machine learning

KW - optimal load shedding

KW - optimality analysis

M3 - Paper

T2 - American Control Conference (ACC2025)

Y2 - 8 July 2025 through 10 July 2025

ER -

Machine Learning for Fairness-Aware Load Shedding: A Real-Time Solution via Identifying Binding Constraints: Preprint

Abstract

Conference

NLR Publication Number

Keywords

Access to Document

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Cite this