TRAST, Preventive Measures for Real-World Reliability
When the power grid is disrupted – by an outage, a cyberattack, a natural disaster, or an unexpected imbalance of supply and demand – grid operators utilize Remedial Action Schemes (RAS) as the last line of defense to maintain grid reliability and prevent broader, cascading events. RAS represents one of the core resilience components of the electric power system and is also one unique example of the IT/OT technology fusion in grid modernization and digitalization.
In partnership with PacifiCorp and Idaho Power, a Pacific Northwest National Laboratory (PNNL) research team led by Dr. Xiaoyuan Fan has developed Transformative Remedial Action Scheme Tool (TRAST). The patented technology automates the process of identifying and evaluating RAS used by electric utilities to plan for specific contingencies and emergencies. TRAST uses a novel approach to automatically generate use cases, bringing in advanced statistical data analysis tools, and using machine learning algorithms to analyze, validate, and help create RAS plans. PNNL’s parallel computing platform and Microsoft cloud environment are utilized for steady state and dynamic simulations under massive contingencies and operating conditions. More realistic settings of RAS systems in the U.S. Western Interconnection can make the grid more reliable and resilient.
Contact Chris Gunning, cgunning@ieee.org, Boise Computer Society chapter chair, if you have a section, chapter, or student branch that would like to be a co-host for this event.
Date and Time
Location
Hosts
Registration
- Date: 17 Dec 2021
- Time: 02:00 AM UTC to 03:00 AM UTC
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- Contact Event Hosts
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Boise Computer Society Chapter chair, Chris Gunning, cgunning@ieee.org
Boise Power & Energy Society Chapter chair, Orlando Ciniglio, ociniglio@gmail.com
Seattle Computer Society Chapter chair, Sheree Wen, swen@ieee.org
New Orleans Computer Society Chapter chair, Luke Hebert, lukehebert27@ieee.org
Orange County Computer Society Chapter chair, A Winsor Brown, awbrown@usc.edu
Galveston Computer Society Chapter chair, Alan Currie, currie3@comcast.net
- Starts 30 November 2021 04:00 PM UTC
- Ends 17 December 2021 02:00 AM UTC
- No Admission Charge
Speakers
Dr. Xiaoyuan Fan of Pacific Northwest National Laboratory (PNNL)
TRAST, Preventive Measures for Real-World Reliability
Biography:
Xiaoyuan Fan is currently a senior research engineer with Pacific Northwest National Laboratory (PNNL) located in Richland, Washington. Serving as a project manager, PI/co-PI and key contributor, Xiaoyuan has been managing and supporting multiple research projects funded by the U.S. Department of Energy, Department of State, Department of Homeland Security, ARPA-E, Bonneville Power Administration and other industrial collaborators. His research interests focus on data analytics for power system reliability, wireless communication, multi-discipline resilience analysis, and high-performance computing. Xiaoyuan is a Senior Member of IEEE and serves as a volunteer reviewer of 20+ top-level journals and conferences in power systems and signal processing. He also served as career advisor in 2018 IEEE PES General Meeting Student Job fair and vice president of IEEE student chapter at University of Wyoming from 2013 to 2015. Xiaoyuan is the recipient of a 2021 Federal Laboratory Consortium for Technology Transfer Award, and three Energy and Environment Directorate Outstanding Performance Awards. He received the Ph.D. degree in electrical engineering from the University of Wyoming, Laramie, WY, and M.S. and B.S. degrees in electrical engineering from Huazhong University of Sciences & Technology, Wuhan, China, respectively.
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