This article reports an implantable transcutaneous telemetry for a brain machine interface that uses a novel optical communication system to achieve a highly energy-efficient link. Based on an pulse-based coding scheme, the system uses sub-nanosecond laser pulses to achieve data rates up to 300 Mbps with relatively low power levels when compared to other methods of wireless communication. This has been implemented using a combination of discrete components (semiconductor laser and driver, fast-response Si photodiode and interface) integrated at board level together with reconfigurable logic (encoder, decoder and processing circuits implemented using Xilinx KCU105 board with Kintex UltraScale FPGA). Experimental validation has been performed...
A technology base for optically-coupled systems was developed that permits in-vivo transmission of b...
Light has been used in many medical applications to monitor health status and diagnose diseases. Exa...
This paper reports a multi-channel neural spike recording system-on-chip with digital data compressi...
We propose a new UWB modulation technique for wireless optical communications in transcutaneous biot...
We report on the development of a novel modulation technique for UWB wireless...
This paper describes an integrated communication system, implementing a UWB-inspired pulsed coding t...
This paper reports on a novel pulsed coding technique based on optical UWB modulation for wireless i...
This paper reports on a pulsed coding technique based on optical Ultra-wideband (UWB) modulation for...
Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer ...
In this paper we report on the fabrication, implementation and experimental characterization of an i...
Recent advancement in brain-machine-interface (BMI) technology has made tremendous impact on both cl...
To date, there are no clinically available cortical neural implants which wirelessly transmit the fu...
In this paper we report on the fabrication, implementation and experimental characterization of an i...
We propose a new wireless communication architecture for implanted systems that simultaneously stimu...
Journal ArticleState-of-the art neural recording systems require electronics allowing for transcuta...
A technology base for optically-coupled systems was developed that permits in-vivo transmission of b...
Light has been used in many medical applications to monitor health status and diagnose diseases. Exa...
This paper reports a multi-channel neural spike recording system-on-chip with digital data compressi...
We propose a new UWB modulation technique for wireless optical communications in transcutaneous biot...
We report on the development of a novel modulation technique for UWB wireless...
This paper describes an integrated communication system, implementing a UWB-inspired pulsed coding t...
This paper reports on a novel pulsed coding technique based on optical UWB modulation for wireless i...
This paper reports on a pulsed coding technique based on optical Ultra-wideband (UWB) modulation for...
Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Electrical Engineering and Computer ...
In this paper we report on the fabrication, implementation and experimental characterization of an i...
Recent advancement in brain-machine-interface (BMI) technology has made tremendous impact on both cl...
To date, there are no clinically available cortical neural implants which wirelessly transmit the fu...
In this paper we report on the fabrication, implementation and experimental characterization of an i...
We propose a new wireless communication architecture for implanted systems that simultaneously stimu...
Journal ArticleState-of-the art neural recording systems require electronics allowing for transcuta...
A technology base for optically-coupled systems was developed that permits in-vivo transmission of b...
Light has been used in many medical applications to monitor health status and diagnose diseases. Exa...
This paper reports a multi-channel neural spike recording system-on-chip with digital data compressi...