R
Robin Podmore
Publications - 3
Citations - 482
Robin Podmore is an academic researcher. The author has contributed to research in topics: Cascading failure & Open platform. The author has an hindex of 3, co-authored 3 publications receiving 425 citations.
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Proceedings ArticleDOI
Initial review of methods for cascading failure analysis in electric power transmission systems IEEE PES CAMS task force on understanding, prediction, mitigation and restoration of cascading failures
Ross Baldick,Badrul H. Chowdhury,Ian Dobson,Zhao Yang Dong,Bei Gou,David Hawkins,H. Huang,Manho Joung,Daniel S. Kirschen,Fangxing Li,Juan Li,Zuyi Li,Chen-Ching Liu,Lamine Mili,Stephen S. Miller,Robin Podmore,Kevin P. Schneider,Kai Sun,David Wang,Zhigang Wu,Pei Zhang,Wenjie Zhang,Xiao-Ping Zhang +22 more
TL;DR: In this article, the authors define cascading failure for blackouts and give an initial review of the current understanding, industrial tools, and the challenges and emerging methods of analysis and simulation.
Proceedings ArticleDOI
Vulnerability assessment for cascading failures in electric power systems
Ross Baldick,Badrul H. Chowdhury,Ian Dobson,Zhao Yang Dong,Bei Gou,David Hawkins,Zhenyu Huang,Manho Joung,Janghoon Kim,Daniel S. Kirschen,Stephen T. Lee,Fangxing Li,Juan Li,Zuyi Li,Chen-Ching Liu,Xiaochuan Luo,Lamine Mili,Stephen J. Miller,Marvin K. Nakayama,Milorad Papic,Robin Podmore,John Rossmaier,Kevin P. Schneider,Hongbin Sun,Kai Sun,David Wang,Zhigang Wu,Liangzhong Yao,Pei Zhang,Wenjie Zhang,Xiao-Ping Zhang +30 more
TL;DR: In this article, the state of the art of vulnerability assessment methods in the context of cascading failures is reviewed, and the impact of emerging technologies including phasor technology, high-performance computing techniques, and visualization techniques on the vulnerability assessment of power grid failures is addressed, and future research directions are presented.
Journal ArticleDOI
Leveraging Standards to Create an Open Platform for the Development of Advanced Distribution Applications
Ronald B. Melton,Kevin P. Schneider,Eric Lightner,Thomas E. McDermott,Poorva Sharma,Yingchen Zhang,Fei Ding,Subramanian Vadari,Robin Podmore,Anamika Dubey,Richard W. Wies,Eric G. Stephan +11 more
TL;DR: This paper describes an approach to enabling cost-effective development and deployment of advanced applications for distribution system planning and operations based on development of an open-source, standards-based platform for application development called GridAPPS-D, which leverages data abstractions for applications development based on standards, such as the distribution system common information model.