2012年3月31号（周六），下午2:00，电信楼3号楼200号

                               Chanan Singh

                            Texas A&M University

Abstract-- In recent years, the nature and complexity of power grids has significantly increased, both in terms of the interconnection of physical components and the deployment of management tools. They have also become critically dependent on the supporting communication infrastructure for control, monitoring, and management.  The interconnected power system is thus becoming one of the largest cyber-physical systems. These additions will add even higher orders of dimensionality to the already large and complex power systems. This order of complexity, intended to achieve higher levels of efficiency, flexibility and fault tolerance, could also be a source of more failures of complex nature that can actually degrade reliability. On the other hand, almost the entire literature on power system reliability evaluation is concerned only with the failures of the current-carrying part of the power grid. The literature on the reliability of power systems examining the overlaid cyber components and their mutual interdependence with the current carrying part is almost non-existent. This presentation will explore the topic of the reliability assurance of cyber-physical systems and possibly stimulate more research in this area. The current state of reliability models will be reviewed and some ideas will be offered for creating a framework for dealing with the power system as an interdependent cyber-physical system. This will be illustrated by discussing the example of the design of a substation.

Chanan Singh

Fellow of IEEE   

Regents Professor & Irma Runyon Chair Professor

Department of Electrical & Computer Engineering

Texas A&M University, College Station, TX 77845

Email: singh@ece.tamu.edu

URL: http://www.ee.tamu.edu/People/bios/singh/index.htm