![]() Along the way, the CPS program has also nurtured a vibrant CPS research community. Furthermore, these advances have often been in the context of areas such as the smart grid and renewable energy sources, intelligent transportation systems including autonomous cars and traffic optimization, medical devices and networked medical systems, intelligent building control, and air transportation including air traffic management and Unmanned Air Vehicles that can be immediately applied to smart city efforts. The NSF CPS program, which today includes the participation of the US Department of Homeland Security and US Department of Transportation, has funded a strong portfolio of projects that together have advanced fundamental knowledge and systems engineering of the kinds of systems that comprise the emerging smart city infrastructure and associated services. ![]() ![]() NSF established the CPS program in 2008 to develop the principles, methodologies, and tools needed to deeply embed computational intelligence, communications, and control, along with new mechanisms for sensing, actuation, and adaption, into physical systems. NIST's GCTC builds upon the National Science Foundation's (NSF) longstanding investments in cyber-physical systems (CPS). This meeting brought together city planners and representatives from technology companies, academic institutions and non-profits with the aim of fostering teams that will contribute to a vision for "smart cities" that takes advantage of networked technologies to better manage resources and improve quality of life. The National Institute of Standards and Technology (NIST) launched the Global City Teams Challenge (GCTC see ) with a kickoff meeting on September 29-30, 2014, in Gaithersburg, MD.
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