KEY BENEFITS:
HIGH SPATIAL RESOLUTION AND IMAGING QUALITY: The Hyper-Cam provides the highest spatial resolution on the market. Its 320 × 256-pixel FPA detector also ensures excellent 2D image quality.
HIGH SPECTRAL RESOLUTION: The Hyper-Cam offers the best spectral resolution available. The spectral features of the targets can be well resolved providing good selectivity. It is userselectable up to 0.25 cm-1.
HIGH TEMPORAL RESOLUTION: Hyperspectral cubes are recorded as a function of time allowing characterization of time-dependent events like gas cloud dispersion and combustion. Measurement time varies with acquisition parameters; this allows the fastest recording of dynamic events.
HIGH SENSITIVITY AND ACCURACY: The high-sensitivity sensor combined with automated high-efficiency calibration sources ensure excellent radiometric measurements.
HOW DOES IT WORK? The unique spectral features of gases and solids are obtained upon modulation of the incoming infrared radiation from the scene by a Michelson interferometer. A high resolution spectrum is then recorded at each pixel of a focal plane array (FPA) detector. By comparing a measured spectrum with reference spectral signatures of known gases and solids, the constituents of a target can be easily identified.
Generate georeferenced hyperspectral maps with the Hyper-Cam Airborne Platform. The Airborne Platform is equipped with a stabilization system and an image motion compensation mirror, which allows you to use the Hyper-Cam from an airplane in order to map vast areas and obtain clear, high-quality spectral information.
Key specifications include :
• High sensitivity : Excellent signal-to-noise ratio (SNR) allows the detection of weak signals
• User-selectable spectral resolution up to 1 cm-1
• Mapping and targeting acquisition modes.