Add to ORKGThis paper presents work on ultra-low-power circuits for brain-machine interfaces with applications for paralysis prosthetics, prosthetics for the blind, and experimental neuroscience systems. The circuits include a micropower neural amplifier with adaptive power biasing for use in multi-electrode arrays; an analog linear decoding and learning architecture for data compression; radio-frequency (RF) impedance modulation for low-power data telemetry; a wireless link for efficient power transfer; mixed-signal system integration for efficiency, robustness, and programmability; and circuits for wireless stimulation of neurons. Experimental results from chips that have recorded from and stimulated neurons in the zebra-finch brain and from RF powe...
This paper presents current research on a miniaturized neuroprosthesis suitable for implantation int...
Brain-Machine Interfaces (BMIs) have been developed in the past few decades to establish a bridge be...
This paper reports a multi-channel neural spike recording system-on-chip with digital data compressi...
This paper presents work on ultra-low-power circuits for brain-machine interfaces with applications ...
This paper presents work on ultra-low-power circuits for brain-machine interfaces with applications ...
This paper presents work on ultra-low-power circuits for brain–machine interfaces with applications ...
This paper presents work on ultra-low-power circuits for brain–machine interfaces with applications ...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
Brain machine interfaces have the potential to revolutionize our understanding of the brain, restore...
Algorithmically and energetically efficient computational architectures that operate in real time ar...
Journal ArticleState-of-the art neural recording systems require electronics allowing for transcuta...
Brain-machine Interfaces (BMI) hold great potential for treating neurological disorders such as epil...
Brain-machine Interfaces (BMI) hold great potential for treating neurological disorders such as epil...
This paper presents current research on a miniaturized neuroprosthesis suitable for implantation int...
Paralysis has impacted the lives of millions of people, limiting not just their movement and quality...
This paper presents current research on a miniaturized neuroprosthesis suitable for implantation int...
Brain-Machine Interfaces (BMIs) have been developed in the past few decades to establish a bridge be...
This paper reports a multi-channel neural spike recording system-on-chip with digital data compressi...
This paper presents work on ultra-low-power circuits for brain-machine interfaces with applications ...
This paper presents work on ultra-low-power circuits for brain-machine interfaces with applications ...
This paper presents work on ultra-low-power circuits for brain–machine interfaces with applications ...
This paper presents work on ultra-low-power circuits for brain–machine interfaces with applications ...
Thesis (Ph. D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer...
Brain machine interfaces have the potential to revolutionize our understanding of the brain, restore...
Algorithmically and energetically efficient computational architectures that operate in real time ar...
Journal ArticleState-of-the art neural recording systems require electronics allowing for transcuta...
Brain-machine Interfaces (BMI) hold great potential for treating neurological disorders such as epil...
Brain-machine Interfaces (BMI) hold great potential for treating neurological disorders such as epil...
This paper presents current research on a miniaturized neuroprosthesis suitable for implantation int...
Paralysis has impacted the lives of millions of people, limiting not just their movement and quality...
This paper presents current research on a miniaturized neuroprosthesis suitable for implantation int...
Brain-Machine Interfaces (BMIs) have been developed in the past few decades to establish a bridge be...
This paper reports a multi-channel neural spike recording system-on-chip with digital data compressi...