Quantum-inspired computational imaging
Copyright policy )Quantum-inspired computational imaging
More to imaging than meets the eye Traditional imaging techniques involve peering down a lens and collecting as much light from the target scene as possible. That requirement can set limits on what can be seen. Altmann et al. review some of the most recent developments in the field of computational imaging, including full three-dimensional imaging of scenes that are hidden from direct view (e.g., around a corner or behind an obstacle). High-resolution imaging can be achieved with a single-pixel detector at wavelengths for which no cameras currently exist. Such advances will lead to the development of cameras that can see through fog or inside the human body. Science , this issue p. eaat2298
- Boston University United States
- University of Michigan–Ann Arbor United States
- University of Glasgow United Kingdom
- THE TRUSTEES OF BOSTON UNIVERSITY United States
- Boston College United States
Multispectral lidar, Science & technology, Computational imaging, Photon, 004
Multispectral lidar, Science & technology, Computational imaging, Photon, 004
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