2 edition of Atmospheric pre-corrected differential absorption techniques to retrieve columnar water vapor found in the catalog.
Atmospheric pre-corrected differential absorption techniques to retrieve columnar water vapor
Published
1996
by National Aeronautics and Space Administration, National Technical Information Service, distributor in [Washington, D.C, Springfield, Va
.
Written in
Edition Notes
| Other titles | Application to AVIRIS 91/95 data. |
| Statement | Daniel Schlapfer ... [et al.]. |
| Series | NASA technical memorandum -- 111659. |
| Contributions | Schlapfer, Daniel., United States. National Aeronautics and Space Administration. |
| The Physical Object | |
|---|---|
| Format | Microform |
| Pagination | 1 v. |
| ID Numbers | |
| Open Library | OL15498224M |
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ATMOSPHERIC PRE-CORRECTED DIFFERENTIAL ABSORPTION TECHNIQUES TO RETRIEVE COLUMNAR WATER VAPOR: THEORY AND SIMULATIONS Christoph C.
Borel and Daniel Schlapfer 1 Astrophysics and Radiation Measurements Group, NIS-2, MS C, Los Alamos National Laboratory Los Alamos, New MexicoUSA [email protected] 1. Water vapor is one of the main forces for weather development as well as for mesoscale air transport processes.
The monitoring of water vapor is therefore an important aim in remote sensing of the atmosphere. Current operational systems for water vapor detection use primarily the emission in the. Atmospheric pre-corrected differential absorption techniques to retrieve columnar water vapor: Theory and simulations.
BOREL C.C and SCHL€PFER D., Atmospheric Pre-Corrected Differential Absorption Techniques To Retrieve Columnar Water Vapor: Theory. Proceedings of the 6th JPL Airborne Earth Science.
Borel, C. C., and Schläpfer, D. (), Atmospheric pre-corrected differential absorption techniques to retrieve columnar water vapor: theory and simulations. In 6th Annual JPL Airborne Earth Science Workshop, Jet Propulsion Laboratory, Pasadena, CA, pp.
13–Cited by: ATMOSPHERIC PRE-CORRECTED DIFFERENTIAL ABSORPTION TECHNIQUES TO RETRIEVE COLUMNAR WATER VAPOR: THEORY AND SIMULATIONS Christoph C. Bore1 and Daniel Schlapfer Astrophysics and Radiation Measurements Group, NIS-2, MS C, Los Alamos National Laboratory Los Alamos, New MexicoUSA [email protected] 1 Cited by: 4.
Get this from a library. Atmospheric pre-corrected differential absorption techniques to retrieve columnar water vapor: application to AVIRIS 91/95 data. [Daniel Rolf Schläpfer; United States.
National Aeronautics and Space Administration.;]. Buy Atmospheric pre-corrected differential absorption techniques to retrieve columnar water vapor application to AVIRIS 91/95 data (SuDoc NAS ) by NASA (ISBN:) from Amazon's Book Store.
Everyday low prices and free delivery on eligible : NASA. BOREL C,C and SCHLAPFER D., Atmospheric Pre-Corrected Differential Absorption Techniques To Retrieve Columnar Water Vapor: Theory, Proceedings of the 6th JPL Airborne Earth Science Workshop, JPL, Pasadena (in pnxs) CARRERE V, and CONEL J, E., Recove?y of Atmospheric Water Vapor Total Column Abundance from.
ATMOSPHERIC PRE-CORRECTED WATER VAPOR RETRIEVAL A columnar water vapor retrieval method using imag-ing spectrometry data has been developed in the last years (GreenBrueggeGaoSchl−pfer /). The so called atmospheric pre-corrected differential absorption (APDA) technique.
KEYWORDS: Thermography, Infrared sensors, FT-IR spectroscopy, Data modeling, Sensors, Remote sensing, Solids, Thermal modeling, Atmospheric modeling, Temperature metrology Read Abstract + Hyperspectral thermal IR remote sensing is an effective tool for the detection and identification of gas plumes and solid materials.
KEYWORDS: Thermography, Data modeling, Aerosols, Calibration, Satellites, Reflectivity, Clouds, Algorithm development, Atmospheric modeling, Model-based design Read Abstract + The Multispectral Thermal Imager (MTI) is a technology test and demonstration satellite whose primary mission involved a finite number of technical objectives.
Aerosol Optical Thickness (AOT) retrieval via the Dense Dark Vegetation Method (DDV), Columnar Water Vapour retrieval (CWV) similar to the Atmospheric Pre-Corrected Differential Absorption (APDA) algorithm of [18], Smile/Frown correction using atmospheric absorptions as in [16] and adjacency correction.
a) b)Cited by: 3. Differential optoacoustic absorption detector. NASA Technical Reports Server (NTRS) Shumate, M. (Inventor) A differential optoacoustic absorption detector employed. SPIE Digital Library Proceedings. Sign In View Cart Help. Search the leading research in optics and photonics applied research from SPIE journals, conference proceedings and presentations, and eBooks.
Hyperspectral imaging for mapping microphytobenthos in coastal areas Méléder V., Launeau P., Barillé L., Combe J-P., Carrère V., Jésus B., Verpoorter Ch. ABSTRACT Estuaries and coastal areas are highly important natural habitats, amongst the.
Wavelength calibration of imaging spectrometer using atmospheric absorption features. NASA Astrophysics Data System (ADS) Zhou, Jiankang; Chen, Yuheng; Chen, Xinhua; Ji, Yiqun; Sh. Water vapour retrieval over land is performed with the Atmospheric Pre-corrected Differential Absorption (APDA) algorithm [R4] which is applied to the two Sentinel-2 bands (B8a, and B9).
Band 8a is the reference channel in an atmospheric window region. METHODS FOR THE SURFACE REFLECTANCE RETRIEVAL FROMCHRIS/PROBA DATA OVER LANDAND INLANDWATERS by 08_guanter - Free download as PDF File .pdf), Text File .txt) or read online for free.
METHODS FOR THE SURFACE REFLECTANCE RETRIEVAL FROMCHRIS/PROBA DATA OVER LANDAND INLANDWATERS.
