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ARIA Opportunity Space: Scoping Our Planet
AI for Universal Vision
We are building an AI system that can see through traditionally opaque materials like skin, skull, and clouds by understanding and reversing how light scatters through them. Our approach combines physics-based mathematical models with machine learning, training on extensive experimental data from leading research institutions to capture how light behaves in different materials. The system will create detailed "digital twins" of these materials, revealing their internal structure and composition with unprecedented clarity. This technology will enable non-invasive brain imaging, early disease detection, and improved weather forecasting through better atmospheric monitoring, with immediate applications in medical imaging and environmental science.
George Gordon's Lab
University of Nottingham
,
Nottingham
Gordon Lab
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George Gordon
Associate Professor and UKRI Future Leaders Fellow in Optics and Photonics, Faculty of Engineering
George Gordon is an Associate Professor and UKRI Future Leaders Fellow in Optics and Photonics in the Faculty of Engineering at the University of Nottingham, where he develops innovative optical endoscopes for improved disease detection, particularly in cancer diagnosis. His research spans optics, photonics, and medical imaging, with breakthrough contributions including a holographic fiber endoscope for enhanced cancer detection and novel low-cost imaging technologies that promise to make advanced medical imaging more accessible and less invasive.
