Applications of CPS technologies dealing with automated machines that can take the place of humans in dangerous environments or manufacturing processes, or resemble humans in appearance, behavior, and/or cognition.
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Submitted by rajesh on Mon, 04/16/2012 - 7:55pm
MICCAI 2012: Fifth International Workshop on Systems and Architectures for Computer Assisted Interventions (SACAI)
Overview
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Submitted by Katie Dey on Mon, 04/16/2012 - 7:17pm
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Submitted by Crieger on Mon, 04/16/2012 - 7:17pm
The major purpose of this symposium is to extend and endorse particular concepts that will generate novel research and codify resilience in next generation control system designs.
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Submitted by quanyan on Mon, 04/16/2012 - 7:17pm
The goal of this two-day, single-track event is to expose researchers to control and modeling challenges in cyber-physical systems (CPS) with the aim of exchanging knowledge and fostering collaborations between academia, industry, and government agencies. The proposed symposium will cover several applications of cyber-physical systems such as networked systems of unmanned vehicles, power grids, green buildings, transportation systems and health-care systems via invited talks, poster presentations and a panel discussion.
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Submitted by Brian.Hulbert on Mon, 04/16/2012 - 7:17pm
Dear Colleagues,
We cordially invite you to attend the 2011 Safe & Secure Systems & Software Symposium (S5) on 14,15 and 16 June at the Hilton Garden Inn, Beavercreek Ohio (near Wright Patterson Air Force Base). The Air Force Research Laboratory Air Vehicles Directorate will be hosting the Symposium and there is no registration fee to attend.
S5 will bring together industry, academia and government to collaborate on the common goal of improvi
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Submitted by Anonymous on Mon, 04/16/2012 - 7:17pm
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Submitted by admin on Mon, 04/16/2012 - 7:17pm
CPS refers to the deep and seamless integration of computational and physical resources to realize engineered systems that far exceed today's systems in autonomy, functionality, efficiency, usability, safety, and reliability. Examples of such systems and applications include future transportation systems, the intelligent power grid, and nano-scale precision manufacturing systems. The goals of research in CPS are to understand the fundamental science and to develop rapid, reliable design and integration techniques applicable to a wide variety of application domains.
