Date Published: September 2014
Author(s)
Victoria Pillitteri (NIST), Tanya Brewer (NIST), Larry Feldman (G2), Gregory Witte (G2)
The United States has embarked on a major transformation of its electric power infrastructure. This vast infrastructure upgrade--extending from homes and businesses to fossil-fuel-powered generating plants and wind farms--is central to national efforts to increase energy efficiency, reliability, and security; to transition to renewable sources of energy; to reduce greenhouse gas emissions; and to build a sustainable economy that ensures future prosperity. These and other prospective benefits of "smart" electric power grids are being pursued across the globe.
The United States has embarked on a major transformation of its electric power infrastructure. This vast infrastructure upgrade--extending from homes and businesses to fossil-fuel-powered generating plants and wind farms--is central to national efforts to increase energy efficiency, reliability, and...
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The United States has embarked on a major transformation of its electric power infrastructure. This vast infrastructure upgrade--extending from homes and businesses to fossil-fuel-powered generating plants and wind farms--is central to national efforts to increase energy efficiency, reliability, and security; to transition to renewable sources of energy; to reduce greenhouse gas emissions; and to build a sustainable economy that ensures future prosperity. These and other prospective benefits of "smart" electric power grids are being pursued across the globe.
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Keywords
advanced metering infrastructure; architecture; cryptography; cybersecurity; electric grid; privacy; security requirements; smart grid
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