Tzu-Jen (Felix) Kao maintains broad expertise in feasibility studies, conducting experiments, algorithm development, and clinical data analysis for bioelectronics and bioinstrumentation. His experience spans over eighteen years in developing reconstruction algorithms for noninvasive biomedical instrumentation, including impedance tomography, multiple model system design and phantom studies, and three years clinical research experience in cancer detection using a noninvasive bio-impedance technique.

GE's non-invasive SMS-EIT prototype system provides higher signal-to-noise ratio and greater sensitivity to continuously image pulmonary perfusion and ventilation.

T-J. Kao, B. Amm, X. Wang, G. Boverman, D. Shoudy, J. Sabatini, J. Ashe, J. Newell, G. Saulnier, D. Isaacson, D. Davenport, “Real-time 3D electrical impedance imaging for ventilation and perfusion of the lung in lateral decubitus position,” Conference Proceedings–IEEE Engineering in Medice and Biology Society, 2014:1135-8. doi: 10.1109/EMBC.2014.6943795.

Margeaux’s love for science is deeply rooted. There was never any question she would pursue a career in materials science & engineering.

Senior Engineer Donovan Buckley reflects on his work with GE Research and the role models who have inspired him.

Puleo recognized for his leadership advancing the GE Research's Bioelectronic Medicine Program and impact creating new external partnerships and projects for the Lab.

Keeping workers safe through analytics derived from sensor data fusion & aggregation and delivered through pervasive connectivity & real-time visualization

GE Research teams up with NYSID and the Center for Disability Services in Albany to supply 400 face shields to Albany Medical Center.

Low-cost manufacturing platform for disposable, hospital-grade multi-parameter clinical monitoring devices.

Hydration status monitoring based on wearable sweat-based sensing