EPFL scientists have developed a new technique that lets researchers watch, with unprecedented sensitivity, how materials ...

Hyperspectral imaging was first developed in the 1980s for remote sensing missions led by NASA and other space agencies. Unlike traditional imaging systems that capture just three spectral bands (red, ...

After the robot collects its detailed visual and spectral imagery, Jiang says, a customized AI model compares it to a data bank to spot patterns known to be indicators of existing disease or ...

You’ll examine a problem in one of several imaging applications such as remote sensing, astronomy, computer vision, manuscript imaging and enhancement, optics, color science, image quality, or visual ...

Clearly, technology and methods for near-surface TIR remote sensing will remain hot topics for scientists investigating the current and future health of forests and other critical ecosystems.

where β (V, λ) is the attenuation coefficient, V is the visibility of the atmosphere, and q = 1.6 (V ≥ 10 km), 1.3 (1 km ≤ V < 10 km) and 0.585 V1/3 (V < 1 km) (Fayaz et al., 2024). Equations 1, 2 ...

Airborne systems can be fitted with any of Resonon’s hyperspectral imaging cameras. The GPS/IMU contains an RTK receiver for centimetre-scale positioning and increased orientation accuracy. An Emlid ...

"Study uses remote sensing to monitor plastic debris in rivers and lakes." ScienceDaily. ScienceDaily, 19 December 2024. <www.sciencedaily.com / releases / 2024 / 12 / 241219152403.htm>.

Accurate and robust monocular passive depth sensing plays a crucial role in various applications. Toward this goal, Scientists in China constructed a compact meta-imaging camera, which achieves ...

Similarly, in OCT, optical metasurfaces enhance imaging resolution and extend the depth of focus (DOF) to 211 μm and 315 μm, outperforming traditional lenses while reducing component size. 4 ...