M. S. Reynolds

Latest

• Electronic Mode Stirring for Improved Backscatter Communication Link Margin in a Reverberant Cavity Animal Cage Environment
• On-the-fly Adaptation of Backscatter Modulator Impedances Using Digitally-Tuned Capacitors
• Hardware-Efficient All-Digital Architectures for OFDM Backscatter Modulators
• All-Digital Single Sideband (SSB) Bluetooth Low Energy (BLE) Backscatter with an Inductor-free, Digitally-Tuned Capacitance Modulator
• A Dual-Band Shared-Hardware 900 MHz 6.25 Mbps DQPSK and 2.4 GHz 1.0 Mbps Bluetooth Low Energy (BLE) Backscatter Uplink for Wireless Brain-Computer Interfaces
• A Low-Cost 1 Mbps Frequency Shift Keying Backscatter Receiver and Carrier Wave Generator System for Wireless Neural Recording
• A 1.0-Mb/s 198-pJ/bit Bluetooth Low-Energy Compatible Single Sideband Backscatter Uplink for the NeuroDisc Brain–Computer Interface
• A 25 Mbps, 12.4 pJ/b DQPSK backscatter Data Uplink for the NeuroDisc Brain–Computer Interface
• Wideband UHF DQPSK Backscatter Communication in Reverberant Cavity Animal Cage Environments
• A 1 Mbps 158 pJ/bit Bluetooth Low Energy (BLE) Compatible Backscatter Communication Uplink for Wireless Neural Recording in an Animal Cage Environment
• A 158 pJ/bit 1.0 Mbps Bluetooth Low Energy (BLE) Compatible Backscatter Communication System for Wireless Sensing
• ZeroScatter: Zero-Added-Component Backscatter Communication Using Existing Digital I/O Pins
• A 6.25 Mbps, 12.4 pJ/bit DQPSK backscatter wireless uplink for the NeuroDisc brain-computer interface