Showing results: 1 - 15 of 27 items found.
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Specim -
Indatech
Push broom imaging is a technique that enables acquiring hyperspectral images or hyperspectral imaging. Each pixel of the image will thus contain an NIR or visible spectrum. This technology uses one dimension of a 2D sensor for measuring a line of the sample (x dimension).
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imec
Imec’s on-chip technology makes hyperspectral imaging real-time, compact and scalable. Leverage our knowhow to design a customized sensor or camera.
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Hyper-Cam -
Telops Inc.
The Hyper-Cam is a lightweight and compact hyperspectral imaging sensor which uses Fourier Transform Infrared (FT-IR) technology. This advanced high-performance spectrometer allows to detect and identify substances either gases or solids from a distance of up to 5 kilometers. It provides real-time chemical imaging as well as unparalleled spatial and spectral information about the IR targets under measurement.
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Hyperspectral PoliSpectra® H116 -
HORIBA, Ltd.
HORIBA has developed a unique hyperspectral imaging spectrometer with an integrated scientific CMOS camera (12-16 bit) featuring HDR (95dB Dynamic Range and 1.7e- noise) and 95% Q.E peak efficiency:PoliSpectra® H116 features broad UV-NIR coverage in one acquisition (185-1050 nm) combined with the highest spectral resolution (<1 nm).
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Headwall Photonics, Inc.
HYPERSPEC® sensors are line-scanning instruments (sometimes called pushbroom) that collect reflected light through an image slit. One row of spatial pixels is collected per frame as motion occurs, with each pixel containing full spectral data. Motion can be accomplished in two ways: either as an airborne deployment (UAV, aircraft, or satellite) or stationary (where motion is accomplished beneath the sensor, such as a food inspection line). A third option is also available where pan-and-tilt or rotary stages allow a fixed-location sensor to scan a stationary object (such as a piece of artwork, or a mine face for geological applications).
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ZOLIX
YoGaiaField-Pro (GFP) camera provide extremely high resolution images by scanning and taking multiple images to construct a hyperspectral datacube. Hyperspectral imaging devices (GFP) for spatial (slit) scanning obtain slit spectra by projecting a strip of the scene onto a slit and dispersing the slit image with a prism or a grating. In spatial (slit) scanning, each two-dimensional (2-D) sensor output represents a full slit spectrum (x,λ). The NUC integrated into the system to control system operation ,data acquisition, and analyze, so the spatial dimension is collected through the scanning motor movement . The line-scan systems are particularly common in remote sensing, so it is sensible to use mobile platforms. The system can keep working by internal battery about 4 hours and user can use ipad or phone to connect the camera by internal Wifi.
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HORIBA, Ltd.
HORIBA designs and manufactures a large range of custom OEM Hyperspectral Imaging (HSI) systems that fit to your application.UV to SWIR, from very compact and lightweight design to wide field and high resolution systems.Standard platforms or custom designs including optics. HORIBA HSI can be fully integrated into at-line, on-line or in-line processes.
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ImageLab -
Menlo Systems Gmbh
ImageLab is a one-of-a-kind image processing tool developed by our partner EPINA for the analysis of data from various spectroscopic imaging techniques such as THz, optical, UV/VIS, IR, Raman, or mass spectrometry. Based on multivariate statistical methods it enables the user to analyze and classify acquired hyperspectral images, to merge them with maps of physical properties and to overlay them with conventional high-resolution color photos. Visualization of the image data and highlighting of analytical information round up the software package to an indispensable instrument for in-depth analysis of spectroscopic image data. ImageLab is now part of Menlo Systems’ imaging extension TERA Image. Ask us for possibilities to upgrade your THz imaging system with our unique software tool!
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KURO® -
Teledyne Princeton Instruments
The KURO® is the first back-illuminated scientific CMOS camera. With high sensitivity and fast frame rates the KURO is optimal for applications such as hyperspectral imaging, astronomy, cold-atom imaging, quantum imaging, fluorescence spectroscopy, and high-speed spectroscopy
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Headwall Photonics, Inc.
UAVs have evolved into the 'Go-To' platform for many remote-sensing applications. Headwall's integrated solutions combine a hyperspectral imaging sensor and choice of GPS/IMU mounted on a high-performance UAV.
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V-1240 -
HySpex
The HySpex Mjolnir V-1240 hyperspectral imaging system for UAVs provides a unique combination of small form factor and low mass, combined with high-performance specifications and scientific grade data quality.
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HySpex -
Norsk Elektro Optikk
HySpex, NEO's line of hyperspectral cameras, are well-proven, robust, compact, high performance and versatile instruments for a multitude of applications, ranging from airborne to laboratory, field and industrial use of imaging spectroscopy.
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XIMEA GmbH
XIMEA’s USB3 cameras portfolio includes: USB3 Vision cameras, USB 3.1 cameras with Sony CMOS, USB 3.0 cameras with CCD and mini Hyperspectral imaging cameras. Including board level versions.
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Phoenix Aerial Systems
The Phoenix Scout-16 is an excellent entry-level, lightweight system with a 40 meter recommended AGL. A strong fit for a smaller scan areas and teams on a budget, the Scout-16 also features options for photogrammetry, hyperspectral, thermal imaging, and more.
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4100H -
TUV Rheinland Inc
HinaLea’s Model 4100H is an award-winning hyperspectral imaging camera with a built-in illumination source. It is recognized as the world’s first high-resolution, handheld, autonomous hyperspectral camera and that was awarded the SPIE Best Camera and Imager Prism Award in 2017. The Model 4100H is compact, lightweight and designed for field and factory use. It captures a high-resolution snap-shot image of an object, with spectra at each pixel for the visible (400 – 1000 nm) wavelength range in up to 550 bands. It features a color touch screen interface, battery operation and embedded object identification. It is ideal for medical imaging, precision agriculture, industrial machine vision and food and other quality inspection applications.