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

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

Thomas Vandeputte is a Principal Engineer at GE Research in the Thermosciences organization, leading technology development efforts for the GE Research turbine aerodynamics team.

Leveraging time-sensitive quantum key distribution technology to provide industrial and utility networks with simpler, more deterministic, and secure communication.

Tube Watch is GE Healthcare’s predictive solution that is designed to remotely monitor and predict X-ray tube failures before any disruption occurs.

Saving babies by not touching them...next generation infant monitoring through novel and unobtrusive sensing

Breaking the traditional thought process of “protect the box,” this mission demonstrated concepts on how to protect the system at both fundamental and system-wide levels

High-precision Indoor, autonomous drone flight without GPS

Aeroderivative gas turbines are a great option for power generation as they are reliable, fuel flexible and cost effective. Given its central role in the fuel to energy conversion process, the combustor is the crucial component in achieving performance goals of excellent operability over a large load range and with low pollutant emissions such as NOx and CO. The Dry Low Emissions (DLE) combustion system is a key differentiating technology in GE’s aeroderivative engines that deliver industry leading emissions performance with excellent fuel flexibility.

Digital Thread for Design℠ (DT4D℠) is an automated, AI-driven workflow process to revolutionize the design of complex industrial components and systems.