Cover of: Infrared spaceborne remote sensing IV |

Infrared spaceborne remote sensing IV

6-7 August, 1996, Denver, Colorado
  • 314 Pages
  • 3.63 MB
  • English

SPIE , Bellingham, Wash
Infrared Space Observatory -- Congresses, Remote sensing -- Congresses, Infrared technology -- Congresses, Infrared technology -- Japan -- Congresses, Infrared technology -- Germany -- Congr
Other titlesInfrared spaceborne remote sensing 4., Infrared spaceborne remote sensing four.
StatementMarija Strojnik Scholl, Björn F. Andresen chairs/editors ; sponsored and published by SPIE--the International Society for Optical Engineering ; cooperating organizations NARSIA--North American Remote Sensing Industries Association, ASPRS--American Society for Photogrammetry and Remote Sensing.
SeriesProceedings / SPIE--the International Society for Optical Engineering -- v. 2817., Proceedings of SPIE--the International Society for Optical Engineering -- v. 2817.
ContributionsScholl, Marija S., Andresen, Björn F., Society of Photo-optical Instrumentation Engineers., American Society for Photogrammetry and Remote Sensing.
The Physical Object
Paginationxi, 314 p. :
ID Numbers
Open LibraryOL19567860M
ISBN 100819422053
ISBN 139780819422057
LC Control Number96068315

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Infrared Spaceborne Remote Sensing IV. Vol. [Marija S Scholl; Bjorn F Andersen]. A geosynchronous imaging Fourier transform spectrometer (GIFTS) for hyperspectral atmospheric remote sensing: instrument overview and preliminary performance results.

Infrared spaceborne remote sensing IV: August,Denver, Colorado Author: Marija Strojnik ; Björn F Andresen ; Society of Photo-optical Instrumentation Engineers.

Infrared Spaceborne Remote Sensing IV: Authors: Scholl, Marija S.; Andresen, Bjorn F. Publication: Proc. SPIE Vol. (SPIE Homepage) Publication Date: 10/ Origin: SPIE: Bibliographic Code: SPIES: Abstract Not Available Bibtex entry for this abstract Preferred format for this abstract (see Preferences) Find Similar.

PROCEEDINGS VOLUME Infrared Spaceborne Remote Sensing and Instrumentation XVII. Editor(s): Marija Strojnik. For the purchase of this volume in printed format, please IV-VI mid-IR tunable lasers and detectors with external resonant cavities. Space Remote Sensing Systems: An Introduction discusses the space remote sensing system, which is a modern high-technology field developed from earth sciences, engineering, and space systems technology for environmental protection, resource monitoring, climate prediction, weather forecasting, ocean measurement, and many other Edition: 1.

Thermal Infrared Remote Sensing: Sensors, Methods, Applications. This book provides a comprehensive overview of the state of the art in the field of thermal infrared remote sensing. Temperature is one of the most important physical environmental variables monitored by earth observing remote sensing systems.

Chapters 8 through 12 then cover remote sensing in the study of atmospheres and ionospheres.

Details Infrared spaceborne remote sensing IV FB2

Each Infrared spaceborne remote sensing IV book first presents the basic interaction mechanism, followed by techniques to acquire, measure, and study the information, or waves, emanating from the medium under investigation.

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.

Thomas U. Kampe, Thomas S. Pagano, and James W. Bergstrom "SIRAS, the Spaceborne Infrared Atmospheric Sounder: an approach to next-generation infrared spectrometers for Earth remote sensing", Proc. SPIEOptical Spectroscopic Techniques, Remote Sensing, and Instrumentation for Atmospheric and Space Research IV, (30 January ); https Cited by: 7.

The contract to study the applications of remote sensing in agriculture was formally initiated J The objectives of this project were initially formulated to investigate, develop, and evaluate a system to study a controlled agricultural research station and the forestry growth along the periphery using remote sensing Size: 8MB.

Description Infrared spaceborne remote sensing IV FB2

11 spectrum of TIR remote sensing applications can be found in the following chap- 12 ters of this book. This chapter presents the theoretical background of thermal in. In the context of covering a large territory, the use of spaceborne and airborne remote sensing technologies has proved its efficiency in many current environmental issues.

Nevertheless, the application of these technologies for waste management is still limited to specific objectives. Validation of emissivity (ε) retrievals from spaceborne thermal infrared (TIR) sensors typically requires spatial extrapolations over several orders of magnitude for a comparison between centimeter-scale laboratory ε measurements and the common decameter and lower resolution of spaceborne TIR the case of NASA’s Advanced Spaceborne Thermal Emission and.

Book chapterFull text access. Chapter 3 - Space Detector Systems Pages Publisher Summary This chapter provides an account of space detector systems.

The photomultiplier tube (PMT) is a useful space detector for UV and visible radiation detection in passive and laser space sensor remote sensing application. Part of the Remote Sensing and Digital Image Processing book series (RDIP, volume 17) Thermal infrared (TIR) data is acquired by a multitude of ground-based, airborne, and spaceborne remote sensing by: Airborne Remote Sensing: Spaceborne Remote Sensing: Digital Image: Optical Remote Sensing.

Interpreting Optical Remote Sensing Images. Infrared Remote Sensing: Microwave Remote Sensing. Frequency, Polarisation and Incidence Angle; Interpreting Synthetic Aperture Radar Images. Image Processing and Analysis. Thermal infrared remote sensing data have been used to derive surface parameters for a long time.

The technology can be traced back to the early s. The main parameters of interest in thermal infrared observation include soil moisture, land surface emissivity, land surface temperature, and evapotranspiration.

This book presents current applications of remote sensing techniques for clouds and precipitation for the benefit of students, educators, and scientists. It covers ground-based systems such as weather radars and spaceborne instruments on satellites.

Remote Sensing of Aerosols, Clouds, and Precipitation compiles recent advances in aerosol, cloud, and precipitation remote sensing from new satellite observations. The book examines a wide range of measurements from microwave (both active and passive), visible, and infrared portions of the spectrum.

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Although the term ‘remote sensing’ was introduced in However, in practice, remote sensing has a long history. In the s, Galileo used optical enhancements to survey celestial bodies [10]. An early exploration of prisms was conducted by Sir Isaac Newton in Cited by: 1.

The SAGEM Group has been involved for more than 30 years in the field of remote sensing, especially via line-scanning sensors. Today, the SAGEM Group develops and manufactures optronic sensors with spectral bandwidths ranging from ultraviolet up to long-wave infrared (LWIR).

Their name is CYCLOPE. Twenty five years ago, a four-channel infrared Author: Christian H. Hamon. research task in optical remote-sensing signatures, entitled Optical / Infrared Signatures for Space-Based Remote Sensing. The work was carried out during the period 20 Mar – 30 Sep and was supported by funding from AFOSR's Author: R H Picard, E M Dewan, J R Winick, R R O'Neil.

Upper Right Menu. Login. Help. KEYWORDS: Thermography, Infrared sensors, Remote sensing, Infrared radiation, Infrared technology, Current controlled current source Read Abstract + Abstract not available. Remote-sensing measurements made in situ and from airborne and spaceborne platforms provide valuable information for research studies.

The Advanced Spaceborne Thermal Emission Reflection Radiometer (ASTER) on NASA's Terra platform provides such mea-surements and has been widely used in geological and other studiesFile Size: KB.

Thermal IR Remote Sensing • Thermal infrared radiation refers to electromagnetic waves with a wavelength of between 3 and 20 micrometers. • Most remote sensing applications make use of the 3 to 5 and 8 to 14 micrometer range (due to absorption bands).

• The main difference between thermal infrared andFile Size: 2MB. The Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) is a Japanese sensor which is one of five remote sensory devices on board the Terra satellite launched into Earth orbit by NASA in The instrument.

ASTER measures reflectance radiation in 3 bands within the to μm range (visible-near-infrared) at m spatial resolution, and 6 bands between and μm (short wave infrared) at m spatial resolution.

Emitted radiation is measured in 5 bands between and μm (thermal infrared) with a m spatial resolution. This book describes all aspects of the theory, instrumental techniques and observational results of the remote sensing of objects in our solar system through studies of infrared radiation.

The theories of radiative transfer, molecular spectroscopy and atmospheric physics are first combined to show how it is possible to calculate the infrared spectra of model planetary by: NASA researchers are able to map out plant stress using a remote sensing from ECOsystems Spaceborne Thermal Radiometer Experiment on Space Station, The thermal infrared energy that is emitted by the plants is received by the radiometer.

A coloring book for adults is a page book containing 44 maps covering cities from around the world Author: Elizabeth Borneman.Abstract.

This work focuses on the analysis of Advanced Spaceborne Thermal Emission and Reflection Radiometer (ASTER) images collected over salt lakes occurrin.