George Mason University

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Visible to the public A Novel Biomechatronic Interface Based on Wearable Dynamic Imaging Sensors

Abstract:

The problem of controlling biomechatronic systems, such as multiarticulating prosthetic hands, involves unique challenges in the science and engineering of Cyber Physical Systems (CPS), requiring integration between computational systems for recognizing human functional activity and intent and controlling prosthetic devices to interact with the physical world.

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Visible to the public CPS: Synergy: A Novel Biomechatronic Interface Based on Wearable Dynamic Imaging Sensors

The problem of controlling biomechatronic systems, such as multiarticulating prosthetic hands, involves unique challenges in the science and engineering of Cyber Physical Systems (CPS), requiring integration between computational systems for recognizing human functional activity and intent and controlling prosthetic devices to interact with the physical world. Research on this problem has been limited by the difficulties in noninvasively acquiring robust biosignals that allow intuitive and reliable control of multiple degrees of freedom (DoF).

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Visible to the public Frontier: Beyond Technical Security:

Jeremy Epstein is Program Director for the NSF Secure and Trustworthy Cyberspace program. He's on loan to NSF from SRI International, where his research areas are voting systems security and software assurance, and where he also supported the DHS Science & Technology Directorate's research program. Over his 25 years working in information security, Jeremy has been a researcher, consultant, product developer, activist, and gadfly. He holds an M.S.