Dokumentdetails
ID
oai:arXiv.org:2409.02148
Thema
Electrical Engineering and Systems... Computer Science - Artificial Inte... Computer Science - Machine Learnin... Mathematics - Optimization and Con...Autor
Puech, Alban Weiss, Jonas Brunschwiler, Thomas Hamann, Hendrik F.Kategorie
Computer Science
Jahr
2024
Auflistungsdatum
11.09.2024
Schlüsselwörter
power operations gridZusammenfassung
The energy transition, crucial for tackling the climate crisis, demands integrating numerous distributed, renewable energy sources into existing grids.
Along with climate change and consumer behavioral changes, this leads to changes and variability in generation and load patterns, introducing significant complexity and uncertainty into grid planning and operations.
While the industry has already started to exploit AI to overcome computational challenges of established grid simulation tools, we propose the use of AI Foundation Models (FMs) and advances in Graph Neural Networks to efficiently exploit poorly available grid data for different downstream tasks, enhancing grid operations.
For capturing the grid's underlying physics, we believe that building a self-supervised model learning the power flow dynamics is a critical first step towards developing an FM for the power grid.
We show how this approach may close the gap between the industry needs and current grid analysis capabilities, to bring the industry closer to optimal grid operation and planning.
Puech, Alban,Weiss, Jonas,Brunschwiler, Thomas,Hamann, Hendrik F., 2024, Optimal Power Grid Operations with Foundation Models
Projection-Specific Heterogeneity of the Axon Initial Segment of Pyramidal Neurons in the Prelimbic Cortex
heterogeneity projection-specific
