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Tuesday, July 28, 2020 | History

1 edition of Infrared spaceborne remote sensing and instrumentation XVII found in the catalog.

Infrared spaceborne remote sensing and instrumentation XVII

Marija Strojnik

Infrared spaceborne remote sensing and instrumentation XVII

5-6 August 2009, San Diego, California, United States

by Marija Strojnik

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Published by SPIE in Bellingham, Wash .
Written in English


Edition Notes

Includes bibliographical references and author index.

StatementMarija Strojnik, editor ; sponsored and published by SPIE
SeriesProceedings of SPIE -- v. 7453, Proceedings of SPIE--the International Society for Optical Engineering -- v. 7453.
ContributionsSPIE (Society)
Classifications
LC ClassificationsG70.4 .I535 2009
The Physical Object
Pagination1 v. (various pagings) :
ID Numbers
Open LibraryOL24480442M
ISBN 100819477435
ISBN 109780819477439
LC Control Number2010287637
OCLC/WorldCa463292488

State-of-the-art remote sensing techniques applicable to the investigation of ice formation and evolution are described. Ground-based and spaceborne measurements with lidar, radar.   In terrestrial remote sensing, the region of 3 to 35 μm is popularly called thermal infrared. As in all other remote sensing missions, data acquisitions are made only in regions of least spectral absorption known as the atmospheric windows. Within the thermal infrared, an excellent atmospheric window lies between μm wavelength.

  G. Mioche, O. Jourdan, M. Ceccaldi, J. DelanoëVariability of mixed-phase clouds in the Arctic with a focus on the Svalbard region: a study based on spaceborne active remote sensing Atmos. Chem. Phys., 15 (), pp. , /acp Remote sensing by an unmanned aerial vehicle (UAV) equipped with a methane detector is a cost-effective and fast method for methane detection and monitoring, especially for vast and remote areas. This paper describes the integration of an off-the-shelf laser-based methane detector into a multi-rotor UAV and demonstrates its efficacy in.

  The current availability of advanced remote sensing technologies in the field of landslide analysis allows for rapid and easily updatable data acquisitions, improving the traditional capabilities of detection, mapping and monitoring, as well as optimizing fieldwork and investigating hazardous or inaccessible areas, while granting at the same time the safety of the operators.   Remote sensing plays a major role in mapping and understanding terrestrial biodiversity. It is the basis of most land cover/land use maps, provides much of the environmental data used in species distribution modelling, can characterise ecosystem functioning, assists in ecosystem service assessment, and is beginning to be used in genetic analyses.


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Infrared spaceborne remote sensing and instrumentation XVII by Marija Strojnik Download PDF EPUB FB2

Infrared Spaceborne Remote Sensing and Instrumentation XVII Editor(s): Marija Strojnik For the purchase of this volume in printed format, please visit Thermal infrared data is acquired by a multitude of ground-based, airborne, and space borne remote sensing instruments.

A broad variety of fields apply thermal infrared remote sensing, for example. A complete discussion of infrared remote sensing from space, including basic radiometric principles, instrumentation concepts and details as well as analysis methods and typical planetary data is found in, R.

Hanel, B. Conrath, D. Jennings, and R. Samuelson, Exploration of the Solar System by Infrared Remote Sensing (Cambridge University Press, Cambridge, UK, ) Google ScholarCited by: MERTIS (MERcury Thermal infrared Imaging Spectrometer) is an advanced infrared remote sensing instrument that is part of the ESA mission BepiColombo to the planet Mercury.

In: SPIE proceedings of theinfrared spaceborne remote sensing and instrumentation, XVII conference, San Diego Google Scholar Dumoulin J, Ibos L, Ibarra-Castanedo C, Mazioud A, Marchetti M, Maldague X, Bendada A () Active Infrared spaceborne remote sensing and instrumentation XVII book thermography applied to defect detection and characterization on asphalt pavement samples: comparison Author: Jean Dumoulin, Jean Dumoulin.

Author(s), "Title of Paper," in Infrared Remote Sensing and Instrumentation XXVI, edited by Marija Strojnik, Maureen S. Kirk, Proceedings of SPIE Vol.

(SPIE, Bellingham, WA, ) Seven-digit Article CID Number. ISSN: X ISSN: X (electronic) ISBN: ISBN: (electronic) Published by SPIE. Chapters 3 through 7 cover the use of remote sensing in solid surface studies, including oceans.

Each chapter covers one major part of the electromagnetic spectrum (e.g., visible/near infrared, thermal infrared, passive microwave, and active microwave). Journal of Applied Remote Sensing Journal of Astronomical Telescopes, Instruments, and Systems Journal of Biomedical Optics Journal of Electronic Imaging Journal of Medical Imaging Journal of Micro/Nanolithography, MEMS, and MOEMS Journal of Nanophotonics Journal of.

Published in SPIE Proceedings Vol. Infrared Spaceborne Remote Sensing and Instrumentation XVII Marija Strojnik, Editor(s). Jean Dumoulin, Vincent Boucher, and Florian Greffier "Numerical and experimental evaluation of road infrastructure perception in fog and/or night conditions using infrared and photometric vision systems", Proc.

SPIEInfrared Spaceborne Remote Sensing and Instrumentation XVII, T (1 September );   Infrared Spaceborne Remote Sensing and Instrumentation XV (Proceedings of Spie) [Strojnik-scholl, Marija] on *FREE* shipping on qualifying offers.

Infrared Spaceborne Remote Sensing and Instrumentation XV (Proceedings of Spie). SPIE Digital Library Proceedings. CONFERENCE PROCEEDINGS Papers. Arnold, Gabriele und Hiesinger, Harald und Helbert, Jörn und Paproth, Carsten und Säuberlich, Thomas und Peter, Gisbert und Walter, Ingo () Thermal infrared imaging of Mercury - MERTIS - a new remote sensing technology.

In: Infrared Remote Sensing and Instrumentation XVII, SPIE. Infrared Spaceborne Remote Sensing and Instrumentation XVII, Proceedings Infrared Spaceborne Remote Sensing and Instrumentation XVII.

Presented at: Optics and Photonics, Infrared Spaceborne Remote Sensing and Instrumentation XVII, San Diego, CA, USA, AugustYear: Laboratories: Q-LAB. Record appears in.

Remote sensing can aid surficial geological mapping and landform characterization. Spectral features. The visible and near infrared (VNIR) and thermal infrared (TIR) are sensitive to intra-atomic electronic transitions and inter-atomic bond strength respectively can help mineral and rock instrument in use is called spectroradiometer in lab and imaging spectrometer or multi.

KEYWORDS: Sensors, Quantum wells, Metamaterials, Terahertz radiation, Ions, Gallium arsenide, Quantum well infrared photodetectors, Metals, Long wavelength infrared, Interfaces Journal of Applied Remote Sensing Journal of Astronomical Telescopes, Instruments, and Systems Journal of Biomedical Optics.

Infrared-imaging technology is evolving at a rapid pace. At this conference there were, for the first time, five different focal plane technologies reported on, all of which have the required performance parameters needed to support staring sensor development.

These technologies comprise PtSi, InSb, HgCdTe, GaAs/AlGaAs, and GeSi/Si. Infrared imagery was demonstrated having higher resolution. Earlier conferences have title: Infrared spaceborne remote sensing and instrumentation.

Description: 1 online resource: illustrations. Series Title: Proceedings of SPIE--the International Society for Optical Engineering, v. Other Titles: Infrared spaceborne remote sensing and instrumentation. Responsibility. MERTIS (MERcury Thermal infrared Imaging Spectrometer) is an advanced infrared remote sensing instrument that is part of the ESA mission BepiColombo to the planet Mercury.

The scientific goals of MERTIS science are surface composition analyses, identification of rock-forming minerals, mapping of the surface mineralogy, and studies of surface temperature variations.

Optical remote sensing makes use of visible, near infrared and short-waveinfrared sensors to form images of the earth's surface by detecting thesolar radiation reflected from targets on the ground. Different materials reflect and absorb differently at different wavelengths.

Remote sensing instruments are of two primary types— active and passive. Active sensors, provide their own source of energy to illuminate the objects they observe.

An active sensor emits radiation in the direction of the target to be investigated. The sensor then detects and measures the radiation that is reflected or backscattered from the.Slide In spaceborne remote sensing, sensors are mounted on-board a spacecraft (space shuttle or satellite) orbiting the earth.

Spaceborne remote sensing provides the following advantages: Large area coverage Frequent and repetitive coverage of an area of interest; Quantitative measurement of ground features using radiometrically calibrated sensors; Semi automated computerized processing and.Book Trust Recycling Electrical Equipment Infrared Remote Sensing and Instrumentation: Volume XVII: AugustSan Diego, California, United States (Paperback) Marija Strojnik.

£ Paperback Added to basket. Infrared Spaceborne Remote Sensing: XI (Proceedings of SPIE) (Paperback) Marija Strojnik. £ Paperback.