Implantable and ingestible biomedical electronic devices can be useful tools for detecting
physiological and pathophysiological signals, and providing treatments that cannot be done …

With ever-increasing concerns on health and environmental safety, there is a fast-growing
interest in new technologies for medical devices and applications. Particularly, wireless …

Over the past six decades, there has been tremendous progress made in the field of medical
implant communications. A comprehensive review of the progress, current state of the art …

Rapid advances in antennas, propagation, electromagnetics, and materials are opening
new and unexplored opportunities in body area sensing and stimulation. Next-generation …

The ever increasing proliferation of wireless objects and consistent connectivity demands
are creating significant challenges for battery-constrained wireless devices. The vision of …

Objective: Near-field inductive-coupling link can establish a reliable power source to a
batteryless implantable medical device based on Faraday's law of induction. Methods: In this …

The new trend towards minimally invasive millimeter-sized and free-floating distributed
implants promises to enable emerging applications, such as chronic neural recording with …

We present a dual-band high-frequency (HF) and ultrahigh-frequency (UHF)(13.56 and 902-
928 MHz) antenna system for implanted neural recording and/or stimulation devices. This …

We propose a novel multi-channel (eight channels) passive neuro-sensing system for
wireless acquisition of brain signals as low as 20 μVpp. Compared to previous batteryless …

An inductively powered brain implantable medical device (BIMD) in lieu of a battery-assisted
BIMD has the ability to provide a reliable power supply and avoid surgical replacement of a …