Wideband UHF DQPSK Backscatter Communication in Reverberant Cavity Animal Cage Environments

A. Sharma, E. Kampianakis, J. Rosenthal, A. Pike, A. Dadkhah, M. S. Reynolds
August 2019
PDF DOI
Type
Journal article
Publication
IEEE Transactions on Antennas and Propagation
antenna radiation patterns;backscatter;biomedical communication;electromagnetic wave polarisation;microstrip antennas;microwave antennas;multipath channels;neurophysiology;phase shift keying;prosthetics;quadrature phase shift keying;radiofrequency identification;UHF antennas;VHF antennas;reduced-size ceramic patch antenna;stimulation device;commercial air-dielectric patch antenna;measured 3 dB channel bandwidth;port-to-port insertion loss;cage volume;backscatter data;wideband backscatter communication systems;significant multipath;reverberant cage environment;wideband UHF DQPSK backscatter communication;reverberant cavity animal cage environments;neuroscience experiments;animal subjects;free motion;metal cage environment;wireless communication;neural recording;metal cage walls;dense multipath;implanted device;multipath challenge;backscatter channel;reverberant cavity effect;channel transfer function;nonhuman primate research;medical band;frequency 902.0 MHz to 928.0 MHz;Antennas;Backscatter;Metals;Animals;Antenna measurements;Cavity resonators;Wireless communication;Backscatter communication;implanted biomedical devices;neural recording;reverberant cavity