Chapter 5Pattern Recognition-Based Approach for Dynamic Vulnerability Status Prediction
Jaime C. Cepeda1, José Luis Rueda-Torres2, Delia G. Colomé3 and István Erlich4
1Head of Research and Development, and University Professor, Technical Development Department, and Electrical Energy Department, Operador Nacional de Electricidad CENACE, Escuela Politécnica Nacional EPN, Quito, Ecuador
2Assistant professor of Intelligent Electrical Power Systems, Department of Electrical Sustainable Energy, Delft University of Technology, The Netherlands
3Professor of Electrical Power Systems and Control, Institute of Electrical Energy, Universidad Nacional de San Juan, Argentina
4Chair Professor of Department of Electrical Engineering and Information Technologies, Head of the Institute of Electrical Power Systems, University Duisburg-Essen, Duisburg, Germany
5.1 Introduction
Electric power systems have lately been operated dangerously close to their physical limits because of lack of investment, the use of congested transmission branches, and other technical reasons. Under these conditions, certain sudden perturbations can cause cascading events that may lead the system to blackouts. It is necessary to ensure that these perturbations do not affect security, so the requirement emerges of developing wide area protection schemes that allow guaranteeing service continuity. However, most actual wide area protection schemes are usually set to operate when specific pre-established operational conditions ...
Get Dynamic Vulnerability Assessment and Intelligent Control now with the O’Reilly learning platform.
O’Reilly members experience books, live events, courses curated by job role, and more from O’Reilly and nearly 200 top publishers.
