Application of airborne and spaceborne hyperspectral imaging
This paper provides a comprehensive review of the current state-of-the-art in the applications of airborne and spaceborne hyperspectral imaging for atmospheric research.
This paper provides a comprehensive review of the current state-of-the-art in the applications of airborne and spaceborne hyperspectral imaging for atmospheric research.
The need for airborne imaging spectrometers will continue even after systems such as HIRIS are in earth orbit. The ability to station an air- borne instrument near the desired test site and,
Airborne remote measurement is an effective method to detect and quantify these emissions. In a campaign context, the science yield can be dramatically increased by real-time retrievals that allow
The International Atomic Energy Agency (IAEA) in its role as collector and disseminator of information on nuclear techniques has long had an interest in gamma ray spectrometer methods and
NASA Ames Airborne Track-ing Sunphotometer (AATS-14) measured solar- beam trans-mission on the NASA DC-8 during the second SAGE III Ozone Loss and Validation Experiment (SOLVE II). This
Abstract. The MethaneAIR imaging spectrometer was originally developed as an airborne demonstrator of the MethaneSAT satellite mission. MethaneAIR enables accurate methane
When paired with airborne imagers, leveled irradiance spectrometers (also called albedometers) proved useful in deriving surface-leaving upwelling radiance from flight level measurements (atmospheric
4STAR (Spectrometers for Sky-Scanning Sun-Tracking Atmospheric Research; Dunagan et al., 2013) is an airborne sun-sky spectrophotometer
A novel aircraft‐based triple‐quadrupole mass spectrometer (TQMS) has been developed for improved detection and collisional analysis of atmospheric ions and trace gases.
A new facility designed to perform calibration measurements of airborne imaging spectrometers was established at the German Aerospace
PDF | The interpretation of gamma-ray spectrometric data requires an understanding of the underlying physics of the method, and an insight into the
Here we present our aircraft-compatible single particle mass spectrometers, SPLAT II and its new, miniaturized version, miniSPLAT that measure in-situ and in real-time the size and chemical
Scientists installed components of the Spectrometer for Sky-Scanning, Sun-Tracking Atmospheric Research (4STAR) instrument into NASA''s DC-8 flying laboratory for data collection
The Pushbroom Imager for Cloud and Aerosol Research and Development (PICARD) is a VNIR-SWIR airborne imaging spectrometer that primarily acquires imagery from the NASA ER-2
Airborne gamma-ray spectrometry (AGRS) is an important component of the International Geochemical Mapping (IGM) project. It permits geochemical mapping of radioactive elements
This paper introduces a new airborne imaging spectrometer, the ARES (Airborne Reflective Emissive Spectrometer) currently being built by Integrated Spectronics, Sydney, Australia, and co-financed by
Sensitivities of airborne gamma ray spectrometers are normally determined by a flight over a calibration range (Minty et al., 1997a). Since there is no calibration range for mini-airborne systems,
Commissioned by the Swiss Airborne Research Facility for the Earth System (ARES) research consortium, AVIRIS-4 is geared toward delivering cutting-edge imaging spectroscopy data
AMPS features a 36° field of view with 600 resolved spatial elements across track (1 mRad) and 431 pixels in the spectral dimension. All other aspects of the instrument, such as the telescope, cryo
Photoacoustic spectrometers have much faster response times than lter based instruments and are well suited for fi airborne applications (Arnott et al., 1999; Moosmüller et al., 2009). Particles contained in
Recent conceptual studies have demonstrated the potential of spaceborne high spectral resolution O 2 A-band spectrometers for retrieval of aerosol and cloud optical properties.
This study details the development and validation of an airborne THz spectrometer designed for real-time, remote detection of atmospheric pollutants.
Generic airborne imaging spectrometers operating in the shortwave infrared (SWIR) wavelength range (1000−2400 nm) have shown their suitability for this task. However, to date, there
Airborne hyperspectral imaging spectrometers have been used for Earth observation over the past four decades. Despite the high sensitivity of push-bro
It is intended to simulate existing satellite imager products (MODIS/VIIRS,) and to validate radiances and geophysical retrievals, with an emphasis on cloud and aerosol science. It will
In this study, we assess the capability of an airborne monitoring system with temporally sparse observations to constrain annual emissions at both facility
3. Conclusion The role of HSI in material detection, identification, geo-observation, and physical parameter estimation is not adequate among other remote sensing approaches. Therefore,
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