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Land Remote Sensing and Global Environmental Change: NASA's Earth Observing System and the Science of ASTER and MODIS [Hardback]

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  • Formāts: Hardback, 873 pages, height x width: 235x155 mm, weight: 1958 g, XLII, 873 p., 1 Hardback
  • Sērija : Remote Sensing and Digital Image Processing 11
  • Izdošanas datums: 08-Nov-2010
  • Izdevniecība: Springer-Verlag New York Inc.
  • ISBN-10: 1441967486
  • ISBN-13: 9781441967480
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Land Remote Sensing and Global Environmental Change: NASA's Earth Observing System and the Science of ASTER and MODISPalielināt
  • Formāts: Hardback, 873 pages, height x width: 235x155 mm, weight: 1958 g, XLII, 873 p., 1 Hardback
  • Sērija : Remote Sensing and Digital Image Processing 11
  • Izdošanas datums: 08-Nov-2010
  • Izdevniecība: Springer-Verlag New York Inc.
  • ISBN-10: 1441967486
  • ISBN-13: 9781441967480
Citas grāmatas par šo tēmu:
Permanent link: https://www.kriso.lv/db/9781441967480.html
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This is an edited compendium of contributions dealing with ASTER and MODIS satellite sensors aboard NASA's Terra and Aqua platforms launched in 1999 and 2002 respectively. It provides the first comprehensive resource on ASTER and MODIS.



Land Remote Sensing and Global Environmental Change: The Science of ASTER and MODIS is an edited compendium of contributions dealing with ASTER and MODIS satellite sensors aboard NASA's Terra and Aqua platforms launched as part of the Earth Observing System fleet in 1999 and 2002 respectively. This volume is divided into six sections. The first three sections provide insights into the history, philosophy, and evolution of the EOS, ASTER and MODIS instrument designs and calibration mechanisms, and the data systems components used to manage and provide the science data and derived products. The latter three sections exclusively deal with ASTER and MODIS data products and their applications, and the future of these two classes of remotely sensed observations.

Recenzijas

From the reviews:

This book is directed to those involved in monitoring land surfaces using remotely sensed data . provides a solid reference to the current science and application of the ASTER and MODIS sensors. This book encompasses both the technical aspects and the wide range of applications of both sensors. provides an excellent reference for the technical specifications and consideration in these sensors. Those who use ASTER or MODIS imagery for land observations should consider finding room on their bookshelves for this book. (Anthony L. Nguy-Robertson, Photogrammetric Engineering & Remote Sensing, January, 2012)

Part I The Earth Observing System and the Evolution of ASTER and MODIS
1 Evolution of NASA's Earth Observing System and Development of the Moderate-Resolution Imaging Spectroradiometer and the Advanced Spaceborne Thermal Emission and Reflection Radiometer Instruments
3(32)
Vincent Salomonson
Michael J. Abrams
Anne Kahle
William Barnes
Xiaoxiong Xiong
Yasushi Yamaguchi
2 Philosophy and Architecture of the EOS Data and Information System
35(14)
Martha Maiden
3 Lessons Learned from the EOSDIS Engineering Experience
49(10)
Evelyn Nakamura
Part II ASTER and MODIS: Instrument Design, Radiometry, and Geometry
4 Terra ASTER Instrument Design and Geometry
59(24)
Hiroyuki Fujisada
5 ASTER VNIR and SWIR Radiometric Calibration and Atmospheric Correction
83(34)
Kohei Arai
Kurtis Thome
Akira Iwasaki
Stuart Biggar
6 ASTER TIR Radiometric Calibration and Atmospheric Correction
117(16)
Hideyuki Tonooka
7 Terra and Aqua MODIS Design, Radiometry, and Geometry in Support of Land Remote Sensing
133(34)
Xiaoxiong Xiong
Robert Wolfe
William Barnes
Bruce Guenther
Eric Vermote
Nazmi Saleous
Vincent Salomonson
Part III ASTER and MODIS: Data Systems
8 ASTER and MODIS Land Data Management at the Land Processes, and National Snow and Ice Data Centers
167(16)
John Daucsavage
Marilyn Kaminski
Bhaskar Ramachandran
Calli Jenkerson
Karla Sprenger
Ron Faust
Tamara Rockvam
9 An Overview of the EOS Data Distribution Systems
183(20)
H. K. Ramapriyan
Robin Ptister
Beth Weinstein
10 The Language of EOS Data: Hierarchical Data Format
203(30)
Larry Klein
Andrey Savtchenko
Abe Taaheri
Cid Praderas
Siri Jodha Singh Khalsa
Part IV ASTER Science and Applications
11 The ASTER Data System: An Overview of the Data Products in Japan and in the United States
233(12)
Hiroshi Watanabe
Bryan Bailey
Kenneth Duda
Yoshiaki Kannari
Akira Miura
Bhaskar Ramachandran
12 ASTER Applications in Volcanology
245(28)
Minoru Urai
David Pieri
13 Issues Affecting Geological Mapping with ASTER Data: A Case Study of the Mt Fitton Area, South Australia
273(28)
Robert Hewson
Thomas Cudahy
14 ASTER Data Use in Mining Applications
301(24)
Sandra Perry
Fred Kruse
15 ASTER Imaging and Analysis of Glacier Hazards
325(50)
Jeffrey Kargel
Roberto Furfaro
Georg Kaser
Gregory Leonard
Wolfgang Fink
Christian Huggel
Andreas Kaab
Bruce Raup
John Reynolds
David Wolfe
Marco Zapata
16 ASTER Application in Urban Heat Balance Analysis: A Case Study of Nagoya
375(22)
Soushi Kato
Yasushi Yamaguchi
17 Monitoring Urban Change with ASTER Data
397(24)
Maik Netzband
Elisabeth Schopfer
Matthias S. Moller
18 Estimation of Methane Emission from West Siberian Lowland with Subpixel Land Cover Characterization Between MODIS and ASTER
421(18)
Wataru Takeuchi
Tomoko Nakano
Yoshifumi Yasuoka
19 ASTER Stereoscopic Data and Digital Elevation Models
439(24)
Thierry Toutin
20 Using ASTER Stereo Images to Quantify Surface Roughness
463(20)
Amit Mushkin
Alan Gillespie
21 Technoscientific Diplomacy: The Practice of International Politics in the ASTER Collaboration
483(26)
Dan Plafcan
Part V MODIS Science and Applications
22 MODIS Land Data Products: Generation, Quality Assurance and Validation
509(24)
Edward Masuoka
David Roy
Robert Wolfe
Jeffery Morisette
Scott Sinno
Michael Teague
Nazmi Saleous
Sadashiva Devadiga
Christopher O. Justice
Jaime Nickeson
23 MODIS Directional Surface Reflectance Product: Method, Error Estimates and Validation
533(16)
Eric Vermote
Svetlana Kotchenova
24 Aqua and Terra MODIS Albedo and Reflectance Anisotropy Products
549(14)
Crystal Barker Schaaf
Jichung Liu
Feng Gao
Alan H. Strahler
25 MODIS Land Surface Temperature and Emissivity
563(16)
Zhengming Wan
Zhao-Liang Li
26 MODIS Vegetation Indices
579(24)
Alfredo Huete
Kamel Didan
Willem van Leeuwen
Tomoaki Miura
Ed Glenn
27 Leaf Area Index and Fraction of Absorbed PAR Products from Terra and Aqua MODIS Sensors: Analysis, Validation, and Refinement
603(32)
Ranga Myneni
Yuri Knyazikhin
Nicolay Shabanov
28 MODIS-Derived Terrestrial Primary Production
635(26)
Maosheng Zhao
Steven Running
Faith Ann Heinsch
Ramakrishna Nemani
29 MODIS-Derived Global Fire Products
661(20)
Christopher O. Justice
Louis Giglio
David Roy
Luigi Boschetti
Ivan Csiszar
Diane Davies
Stefania Korontzi
W. Schroeder
Kelley O'Neal
Jeff Morisette
30 MODIS Snow and Ice Products, and Their Assessment and Applications
681(28)
George Riggs
Dorothy Hall
31 Characterizing Global Land Cover Type and Seasonal Land Cover Dynamics at Moderate Spatial Resolution with MODIS Data
709(16)
Mark Friedl
Xiaoyang Zhang
Alan Strahler
32 MODIS Vegetative Cover Conversion and Vegetation Continuous Fields
725(22)
Mark Carroll
John Townshend
Matthew Hansen
Charlene DiMiceli
Robert Sohlberg
Karl Wurster
33 Multisensor Global Retrievals of Evapotranspiration for Climate Studies Using the Surface Energy Budget System
747(34)
Matthew McCabe
Eric Wood
Hongbo Su
Raghuveer Vinukollu
Craig Ferguson
Z. Su
Part VI The Future of Land Remote Sensing
34 The Evolution of U.S. Moderate Resolution Optical Land Remote Sensing from AVHRR to VIIRS
781(26)
Christopher O. Justice
Eric Vermote
Jeff Privette
Alain Sei
35 The Future of Landsat-Class Remote Sensing
807(28)
Samuel Goward
Darrel Williams
Terry Arvidson
James Irons
36 International Coordination of Satellite Land Observations: Integrated Observations of the Land
835(22)
John Townshend
John Latham
Christopher O. Justice
Anthony Janetos
Richard Conant
Olivier Arino
Roberta Balstad
Alan Belward
Jay Feuquay
Jiyuan Liu
Dennis Ojima
Christiana Schmullius
Ashbindu Singh
Jeff Tschirley
Index 857
Bhaskar Ramachandran is a senior scientist who supports the NASA Earth Observing System (EOS) science mission at the Earth Resources and Observation Science (EROS) Center at the U.S. Geological Survey in Sioux Falls, South Dakota. He currently supports the MODIS science mission, and has performed similar roles for the Landsat-7 and ASTER missions in the past. His current research interests include the use of semantic web capabilities, and building ontologies to represent geospatial science knowledge domains. Chris Justice is a Professor and Research Director at the Geography Department of the University of Maryland. He is the land discipline chair for the NASA MODIS Science Team and is responsible for the MODIS Fire Product. He is a member of the NASA NPOESS Preparatory Project (NPP) Science Team. He is the NASA Land Cover Land Use Change Program Scientist. His current research is on land cover and land use change, the extent and impacts of global fire, global agricultural monitoring,and their associated information technology and decision support systems. Michael Abrams received his degrees in Biology and Geology from the California Institute of Technology. Since 1973 he has worked at NASA's Jet Propulsion Laboratory in geologic remote sensing. He served on the science team for many instruments, including Skylab, HCMM, Landsat, and EO-1. Areas of specialization are mineral exploration, natural hazards, volcanology, and instrument validation. He has been on the US/Japan ASTER Science Team since 1988, and became the ASTER Science Team Leader in 2003.