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It is easier to distinguish between various characteristics on the Earth’s surface when using hyperspectral sensors, which collect imagery in a large number of confined, continuous spectral bands. In addition to Synthetic Aperture Radar (SAR) and traditional multi-spectral data, it is a complementary data source.
Remote Sensing (CCRS) has been advancing the quality of hyperspectral data for more than several years. They have also created tools, models, and methods for processing hyperspectral data to make it more valuable for the Canadian government and other consumers.
CCRS are skilled in a variety of hyperspectral applications, including northern mineral mapping, mine cleanup, and vegetation stress. Scientists collaborate closely with Canadian business, academia, and other governmental agencies.
The Global hyperspectral sensors market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
Small, lightweight, and robust hyperspectral imaging systems are available from Headwall under the HYPERSPEC brand.
A wide, aberration-corrected field of view, superb signal-to-noise performance, and holographic diffraction gratings produced in our world-class cleanroom facilities are all provided by the beautiful all-concentric design.
A sensors function between the wavelengths of 250 and 2500 nm, with the MWIR available upon request.
Headwall provides radiometric calibration services because airborne-acquired spectrum data is affected by a number of factors, such as atmospheric absorption and scattering, sensor-target illumination geometry, sensor calibration, and image data processing techniques.
Precision agriculture, industrial, environmental monitoring, mining, and mineralogy are just a few of the applications that Corning Hyperspectral Imaging offers hyperspectral sensors and complete hyperspectral systems for.
The microHSI family of hyperspectral sensors and systems from Corning offers the lowest size, weight, and power (SWaP) in the sector without sacrificing performance, making it possible to deploy them for difficult applications in settings with constrained payload and/or size options.
Corning bought out NovaSol. The acquisition brings together Corning’s extensive production capabilities in optical systems and strong commitment to R&D with NovaSol’s robust technology portfolio and core competency in imaging solutions.
For a wide range of theoretical and potential applications, such as astronomy, agriculture, molecular biology, biomedical imaging, geosciences, physics, and surveillance, BaySpec develops hyperspectral sensors and processing systems.
A push-broom hyperspectral camera with a SuperSpeed USB 3.0 interface, the OCIF Series (“All Seeing Eye”) covers the entire VIS-NIR (400-1000 nm) or SWIR (short-wave infrared, 900-1700 nm) wavelength range.
It has fast data transfer rates and is incredibly small and light (14 cm x 7 cm x 7 cm) (up to 60 fps). As a cutting-edge “true push-broom” hyperspectral imager, the imager can be easily moved by hand, drone (UAV), or other vehicles, or the sample can be moved (for example, on a conveyor belt) to complete the scan.
