Now showing items 1-5 of 5
Anatomically and dielectrically realistic microwave head phantom with circulation and reconfigurable lesions
(The Electromagnetics Academy, 2017)
Phantoms provide valuable test platforms for developing medical devices. Solid materials in particular allow fabrication of stable and robust models. This paper presents a novel, anatomically realistic, multi-layered head ...
Supervised learning classifiers for electrical impedance-based bladder state detection
(Nature Publishing Group, 2018-03-29)
Urinary Incontinence affects over 200 million people worldwide, severely impacting the quality of life of individuals. Bladder state detection technology has the potential to improve the lives of people with urinary ...
A realistic pelvic phantom for electrical impedance measurement
(IOP Publishing, 2018-03-15)
Objective: To design and fabricate an anatomically and conductively accurate phantom for electrical impedance studies of non-invasive bladder volume monitoring. Approach: A modular pelvic phantom was designed and fabricated, ...
Symmetry difference electrical impedance tomography-a novel modality for anomaly detection
(IOP Publishing, 2018-04-26)
Objective: The theoretical basis, experimental implementation, and proof of concept of a novel electrical impedance tomography (EIT) imaging technique, called symmetry difference EIT, is described. This technique is ...
Stable tissue-mimicking materials and an anatomically realistic, adjustable head phantom for electrical impedance tomography
(IOP Publishing, 2017-11-27)
Objective. To develop dielectrically accurate, easy to mould solid tissue-mimicking materials (TMMs) for use with electrical impedance tomography (EIT) and combine them into a head phantom with realistic anatomy and ...