As billions of devices join the Internet-of-Things, powering them sustainably is a growing challenge. This talk explores how wireless power — from near- and far-field transfer to adaptive networks and...
The dielectric properties of biological tissues may be modified by disease type and state. Measurement and mapping of these properties, either in-vivo or from excised samples, can support detection of...
This contribution presents microwave solutions implementing stand-alone portable Moisture Content (MC) sensors, which can be adopted in precision agriculture and health care contexts. A first solution...
Electroporation, based on pulsed electric fields, represents a promising approach for biomedical applications. Its effectiveness depends on optimal parameters, including waveforms, electrode character...
Microwave dielectric spectroscopy presents advantages: being non-invasive, label free and highly sensitive to water molecule content and binding. Due to the penetration of microwaves in cells and tiss...
Dielectric spectroscopy allows for label-free, non-invasive, and rapid characterization of biological and chemical materials. Its integration with microfluidics opens the door to measurements on low s...
Dielectric spectroscopy and holographic optical image analysis are distinct but important label-free and non-invasive modalities for investigating biological phenomena at the cellular level. The two a...
This workshop presents the Non-Invasive Blood Glucose Monitor (NIBGM) project, which investigates RF and microwave resonant sensing for continuous, non-invasive blood glucose monitoring. From a microw...
This talk will illustrate how label-free electrokinetic analysis performed at few hundred of MHz can detect distinctive bioelectric signatures from the heterogeneity of tumor biopsy cells and could gi...
This paper presents an ultra-broadband distributed vector-summing phase shifter (VS-PS) with fine resolution and full field of view over more than a decade of bandwidth. The design consists of optimal...