Open Cyber-Architecture for electrical energy markets. Yuksel, M., Bekris, K., Evrenosoglu, C. Y., Gunes, M. H., Fadali, S., Etezadi-Amoli, M., & Harris 2010.
doi  abstract   bibtex   
Automated control and management of large-scale physical systems is a challenging problem in a wide variety of applications including: power grids, transportation networks, and telecommunication networks. Such systems require (i) data collection, (ii) secure data transfer to processing centers, (iii) data processing, and (iv) timely decision making and control actions. These tasks are complicated by the vast amount of data, the distributed sources of data, and the need for efficient data communication. In addition, large physical systems are often subdivided into separately owned subsystems. This multi-owner structure imposes physical, economic, market, and political constraints on the data transfer. These divisions make systems vulnerable to potential coordinated attacks. Defending against such attacks requires the infrastructures to be more automated and self-healing. Motivated by the challenge of a more efficient, secure and robust power grid, which is less vulnerable to blackouts due to cascaded events, this paper discusses some of the fundamental problems in designing future cyber-physical systems.
@conference {5735675,
	title = {Open Cyber-Architecture for electrical energy markets},
	booktitle = {2010 IEEE 35th Conference on Local Computer Networks (LCN)},
	year = {2010},
	pages = {1024-1031},
	abstract = {Automated control and management of large-scale physical systems is a challenging problem in a wide variety of applications including: power grids, transportation networks, and telecommunication networks. Such systems require (i) data collection, (ii) secure data transfer to processing centers, (iii) data processing, and (iv) timely decision making and control actions. These tasks are complicated by the vast amount of data, the distributed sources of data, and the need for efficient data communication. In addition, large physical systems are often subdivided into separately owned subsystems. This multi-owner structure imposes physical, economic, market, and political constraints on the data transfer. These divisions make systems vulnerable to potential coordinated attacks. Defending against such attacks requires the infrastructures to be more automated and self-healing. Motivated by the challenge of a more efficient, secure and robust power grid, which is less vulnerable to blackouts due to cascaded events, this paper discusses some of the fundamental problems in designing future cyber-physical systems.},
	keywords = {automated control, automated management, control actions, cyber-physical systems, data collection, data communication, data processing, Decision making, distributed sources, economic constraint, electrical energy markets, Humans, ISO, large physical systems, large-scale physical systems, market constraint, Multi-Owner Infrastructures, multiowner structure, open cyber-architecture, physical constraint, political constraint, potential coordinated attacks, power grids, power markets, power system control, power system management, Power transmission lines, processing centers, robust power grid, Secure Communication, secure data transfer, Smart Grid, Substations, telecommunication networks, timely decision making, transportation networks},
	issn = {0742-1303},
	doi = {10.1109/LCN.2010.5735675},
	author = {Yuksel, Murat and Bekris, Kostas and Evrenosoglu, Cansin Yaman and Gunes, Mehmet Hadi and Fadali, Sami and Etezadi-Amoli, Mehdi and Harris,Jr., Frederick C.}
}
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