Add to ORKGOne in every fifty Americans suffers from paralysis, and approximately 23% of paralysis cases are caused by spinal cord injury. To help the spinal cord injured gain functionality of their paralyzed or lost body parts, a sensor-neural-actuator system is commonly used. The system includes: 1) sensor nodes, 2) a central control unit, 3) the neural-computer interface and 4) actuators. This thesis focuses on a sensor-neural interface and presents the research related to circuits for the sensor-neural interface. In Chapter 2, three sensor designs are discussed, including a compressive sampling image sensor, an optical force sensor and a passive scattering force sensor. Chapter 3 discusses the design of the analog front-end circuit for the wireles...
Neural interfaces promise to radically change medicine. Currently, amputees and persons suffering fr...
This paper reports an integrated 64-channel neural spike recording sensor, together with all the cir...
Thesis (Ph.D.)--University of Washington, 2012Recent advances in ultra-low power chip design techniq...
One in every fifty Americans suffers from paralysis, and approximately 23% of paralysis cases are ca...
One in every fifty Americans suffers from paralysis, and approximately 23% of paralysis cases are ca...
This thesis describes a means for performing complex event detection at a single sensor node of a wi...
This article presents a bioinspired, event-driven neuromorphic sensing system (NSS) capable of perfo...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
This dissertation presents the design of a next-generation wireless sensor network node. The node in...
Connected intelligent sensing reshapes our society by empowering people with increasing new ways of ...
Ubiquitous computing, such as smart homes, smart cars, and smart grid, connects our world closely so...
In this dissertation, a system allowing a visually impaired person to interact with his environment ...
Journal ArticleWe have developed a single-chip neural recording system with wireless power delivery ...
Thesis (Ph.D.)--University of Washington, 2018This work addresses challenges in power delivery, effi...
Restoring visual function in blind people through technology can be challenging but very beneficial ...
Neural interfaces promise to radically change medicine. Currently, amputees and persons suffering fr...
This paper reports an integrated 64-channel neural spike recording sensor, together with all the cir...
Thesis (Ph.D.)--University of Washington, 2012Recent advances in ultra-low power chip design techniq...
One in every fifty Americans suffers from paralysis, and approximately 23% of paralysis cases are ca...
One in every fifty Americans suffers from paralysis, and approximately 23% of paralysis cases are ca...
This thesis describes a means for performing complex event detection at a single sensor node of a wi...
This article presents a bioinspired, event-driven neuromorphic sensing system (NSS) capable of perfo...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
This dissertation presents the design of a next-generation wireless sensor network node. The node in...
Connected intelligent sensing reshapes our society by empowering people with increasing new ways of ...
Ubiquitous computing, such as smart homes, smart cars, and smart grid, connects our world closely so...
In this dissertation, a system allowing a visually impaired person to interact with his environment ...
Journal ArticleWe have developed a single-chip neural recording system with wireless power delivery ...
Thesis (Ph.D.)--University of Washington, 2018This work addresses challenges in power delivery, effi...
Restoring visual function in blind people through technology can be challenging but very beneficial ...
Neural interfaces promise to radically change medicine. Currently, amputees and persons suffering fr...
This paper reports an integrated 64-channel neural spike recording sensor, together with all the cir...
Thesis (Ph.D.)--University of Washington, 2012Recent advances in ultra-low power chip design techniq...