Remote Sensing Handbook, Second Edition, Six Volume Set - Thenkabail, Prasad; (szerk.) - Prospero Internetes Könyváruház
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Remote Sensing Handbook, Second Edition, Six Volume Set

 
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Kiadó: CRC Press
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A kedvezmény érvényes eddig: 2024. december 31.
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Rövid leírás:

This comprehensive six volume handbook establishes a new standard for spanning and integrating discussion of remote sensing principles, data, methods, development, and applications in a scientific and social context. Thoroughly revised, this set draws on the expertise of an array of leading international authorities in remote sensing.

Hosszú leírás:

This comprehensive six volume handbook establishes a new standard for spanning and integrating discussion of remote sensing principles, data, methods, development, and applications in a scientific and social context. Advances in remote sensing with the arrival of machine learning, cloud computing, AI, and big data from multiple new generation of sensors are taken into consideration in the new edition along with many new applications of remotely sensed data. This thoroughly revised and updated volume draws on the expertise of a diverse array of leading international authorities in remote sensing and provides an essential resource for researchers at all levels interested in using remote sensing.


Features



  • Provides the most up to date comprehensive coverage of remote sensing science.

  • Discusses and analyzes data from new sensors and new satellites.

  • Includes numerous case studies on advances and applications at a global scale.

  • Introduces advanced methods in remote sensing such as machine learning, cloud computing, and AI.

  • Highlights scientific achievements over the last decade and provides guidance for future developments.


This set is an excellent resource for the entire remote sensing and GIS community. Academics, researchers, undergraduate and graduate students, as well as practitioners, decision-makers, and policymakers, will benefit from the expertise of the professionals featured in these handbooks, and their extensive knowledge of new and emerging trends.



The chapters in Remote Sensing Handbook are written by leading remote sensing scientists of the world and ably edited by Prasad S. Thenkabail, Senior Scientist, at U.S. Geological Survey (USGS) in Flagstaff, Arizona.  The importance and the value of the Remote Sensing Handbook is clearly demonstrated by the need for a second edition. The Remote Sensing Handbook (First Edition, Volumes I-III) was published in 2014 and now after 10 years Remote Sensing Handbook, Second Edition, (Volumes I-VI) with 91 Chapters and nearly 3500 pages will be published.  It is certainly monumental work in remote sensing science and for this I want to compliment Dr. Prasad Thenkabail. Remote sensing is now important to a large number of scientific disciplines beyond our community, and I recommend the Remote Sensing Handbook, Second Edition, Six Volume Set, to not only remote sensers but to the entire scientific community.


Dr. Compton Jim Tucker, Senior Scientist, Hydrospheric and Biospheric Laboratory, NASA Goddard Space Flight Center (GSFC), USA


 


It is not often that a Remote Sensing ?Handbook? containing rich and diverse contributions from some of the best researchers worldwide is compiled and published. So please take note that The Remote Sensing Handbook, Second Edition, edited by Dr Prasad S. Thenkabail has landed. This book contains everything you need to know to become a remote sensing scientist. The principles, the different wavelengths, the considerations to take into account for cloud processing, calibration and validation considerations and all the domain application areas you can possibly consider; some of which I was not even aware of, are all in there. Chapters of the book delve into topics such as space law and data for policy applications. Thank you to the authors for their contributions and commitment to ensure that this book becomes a very useful resource for researchers and students as the subject of Remote Sensing moves ahead with great pace into the 2nd quarter of the 21st Century.


Prof. Kevin J. Tansey, Editor-in-Chief, International Journal of Remote Sensing and Professor of Remote Sensing, University of Leicester, UK


 


This six-volume, Second Edition of the Remote Sensing Handbook provides a collection of chapters covering the gamut of remote sensing topics and applications. The chapters are written by many well-known members of the international remote sensing community, offering diverse perspectives on this rapidly developing discipline. The Handbook will be useful for students and practitioners alike. This compilation is a major undertaking and I congratulate Dr. Prasad Thenkabail on its completion.


Prof. Chris Justice, University of Maryland College Park, USA


 


Dr. Thenkabail and his colleagues do a brilliant job of condensing nearly 60 years of research and developments in remote sensing into a six-volume compendium. Interested in remote sensing, invest in this handbook!


Dr. Ramakrishna Nemani, Senior Earth scientist with the Advanced Supercomputing division at NASA Ames Research Center (retired), and Chief Developed of NASA Earth Exchange (NEX) platform


 


The second edition of the Remote Sensing Handbook is an impressive collection of 91 chapters in 6 volumes written by some of the best known and most active remote sensing scientists of our time. It is a vast expansion from its first edition of 3 volumes in 2015 and comprehensively covers all the major fields of remote sensing science, including sensors, image processing, information retrieval and a wide range of applications to ecology, agriculture, forestry, urban environment, water resources, climate change, etc. It allows students, scientists, professionals and practitioners to catch up with the rapid development in remote sensing technology, methodology and applications over the past decade. Dr. Prasad S. Thenkabail, a world-renowned remote sensing scientist, is highly commended for undertaking the daunting task of formulating and editing this large collection as the sole editor-in-chief. His 40-year experience in various remote sensing fields makes him well suited for this task.


Dr. Jing M. Chen, Editors-in-Chief of Remote Sensing of Environment, Professor, CRC, FRSC, University of Toronto, Canada

Tartalomjegyzék:

Volume I - Part I: Earth Observing Satellites and Sensors from Different Eras and their Characteristics. 1. Remote Sensing Satellites and Sensors: Optical, Radar, LiDAR, Microwave, Hyperspectral, and UAVs.  Part II: Global Navigation Satellite Systems (GNSS) and their Characteristics 2. Global Navigation Satellite Systems Theory and Practice:  Evolution, State of Art, and Future Pathways.  3. Global Navigation Satellite System Reflectometry for Ocean and Land Applications.  4. Global Navigation Satellite Systems (GNSS) for a Wide Array of Terrestrial Applications.  Part III: Fundamentals of Remote Sensing: Evolution, State-of-Art, and Future Possibilities.  5. Fundamentals of Remote Sensing for Terrestrial Applications: Evolution, Current State of Art, and Future Possibilities.  Part IV: Data Normalization, Harmonization, and Inter-Sensor Calibration.  6. Overview of Satellite Image Radiometry in the Solar-Reflective Optical Domain.  7. Post-Launch Radiometric Calibration of Satellite-Based Optical Sensors with Emphasis on Terrestrial Reference Standard Sites.  8. Remote Sensing Data Normalization.  9. Satellite Data Degradations and their Impacts on High Level Products.  Part V: Vegetation Index Standardization and Cross Calibration of Data from Multiple Sensors.  10. Inter- and Intra-sensor Spectral Compatibility and Calibration of the Enhanced Vegetation Indices.  11. Towards Standardisation of Vegetation Indices.  Part VI: Crowdsourcing of Remote Sensing Data.  12. Crowdsourcing and Remote Sensing: Combining Two Views of the Earth. Part VII: Cloud Computing and Remote Sensing.  13. Processing Remote Sensing Data in Cloud Computing Environments.  14. Cloud Computing in Remote Sensing: A Comprehensive Assessment of State of Arts.  Part VIII: Google Earth for Remote Sensing.  15. The Legacy of Google Earth in Remote Sensing.  Part IX: Accuracies, Errors, and Uncertainties of Remote Sensing Derived Products.  16. Assessing Positional and Thematic Accuracies of Maps Generated from Remotely Sensed Data.  Part X: Remote Sensing Law.  17. Remote Sensing Law: An Overview of its Development and its Trajectory in the Global Context.  Part XI: Summary and Synthesis of Volume I. 18. Remote Sensing Handbook, Volume I: Sensors, Data Normalization, Harmonization, Cloud Computing, and Accuracies. 


Volume II - Part I: Image Processing Methods and Approaches.  1. Digital Image Processing: A Review of the Fundamental Methods and Techniques.  2. Image Classification Methods in Land Cover and Land Use and Cropland Studies.  3. Urban Image Classification: Per-pixel Classifiers, Sub-pixel Analysis, Object-based Image Analysis, and Geospatial Methods.  4. Hyperspectral Image Processing: Methods and Approaches.  5. Collaborative Representation for Hyperspectral Image Classification and Detection.  6. Thermal Infrared Remote Sensing: Principles and Theoretical Background.  7. Remote Sensing Image Segmentation: Methods, Approaches, and Advances.  8. Object Based Image Analysis: Evolution, History, State-of-the-Art and Future Vision.  9. Geospatial Data Integration in OBIA- implications of Accuracy and Validity.  10. Image Segmentation Algorithms for Land Categorization.  11. LiDAR Data Processing and Applications.  Part II: Change Detection.  12. Forest Clear-Cutting Detection in Subtropical Regions with Time Series Remotely Sensed Data.  Part III: Integrating Geographic Information Systems (GIS) and Remote Sensing in Spatial Modeling Framework for Decision Support.  13. Geoprocessing, Workflows, and Provenance.  14. Toward Democratization of Geographic Information: GIS, Remote Sensing, and GNSS Applications in Everyday Life.  15. Frontiers of GIScience: Evolution, State-of-Art, and Future Pathways.  16. Object-Based Regionalization for Policy-Oriented Partitioning of Space.  Part IV: Summary and Synthesis of Volume II.  17. Remote Sensing Handbook, Volume II: Image Processing, Change Detection, GIS and Spatial Data Analysis. 


Volume III - Part I: Vegetation and Biomass.  1. Measuring Photosynthesis Productivity from Space.  2. Remote Sensing of Solar-Induced Chlorophyll Fluorescence.  3. Canopy Biophysical Variables Retrieval from the Inversion of Reflectance Models.  4. Agricultural Crop Biophysical and Biochemical Quantity Retrievals using Remote Sensing with Multi-Sensor.  5. Agriculture.  Part II: Agricultural Croplands.  6. Agricultural Systems Studies using Remote Sensing.  7. Global Food Security Support Analysis Data (GFSAD) at Nominal 1-km derived from Remote Sensing in Support of Food Security in the Twenty-first Century: Current Achievements and Future Possibilities.  8. Remote Sensing for Precision Agriculture.  9. Remote Sensing of Tillage Status.  Part III: Rangelands.  10. Hyperspectral Remote Sensing for Terrestrial Applications.  11. A Global View of Remote Sensing of Rangelands: Evolution, Applications, Future Pathways.  12. Remote Sensing of Rangeland Biodiversity.  Part IV: Phenology and Food Security.  13. Characterization, Mapping, and Monitoring of Rangelands: Methods and Approaches.  Part V: Soils.  14. Global Land Surface Phenology and Implications for Food Security.  15. Spectral Sensing from Ground to Space in Soil Science: State of the Art, Applications, Potential and Perspectives.  16. Remote Sensing of Soil in the Optical Domains.  Part VI: Summary and Synthesis for Volume III.  17. Remote Sensing Handbook, Vol III: Agriculture, Food Security, Rangelands, Vegetation, Phenology, and Soils. 


Volume IV - Part I: Forests.  1. Characterizing Tropical Forests with Multispectral Imagery.  2. Remote Sensing of Forests from Lidar and Radar.  3. Forest Biophysical and Biochemical Properties from Hyperspectral and LiDAR Remote Sensing.  4. Optical Remote Sensing of Tree and Stand Heights.  Part II: Biodiversity.  5. Biodiversity of the World: A Study from Space.  6. Multi-scale Habitat Mapping and Monitoring using Satellite Data and Advanced Image Analysis Techniques.  Part III: Ecology.  7. Ecological Characterization of Vegetation Using Multi-Sensor Remote Sensing in the Solar Reflective Spectrum.  Part IV: Land Use/Land Cover.  8. Land Cover Change Detection.  9. Land Use and Land Cover Mapping and Monitoring wirh Radar Remote Sensing.  V: Carbon. 10. Global Carbon Budgets and the Role of Remote Sensing.  11. Above-ground Terrestrial Biomass and Carbon Stock Estimations from Multi-sensor Remote Sensing.  Part VI: Summary and Synthesis of Volume IV.  12. Remote Sensing Handbook, Volume IV: Forests, Biodiversity, Ecology, LULC and Carbon.    


Volume V - Part I: Geomorphology.  1. Geomorphological Studies from Remote Sensing.  Part II: Hydrology and Water Resources.  2. Remote Sensing Technologies for Multi-scale Hydrological Studies: Advances and Perspectives.  3. Groundwater Targeting Using Remote Sensing.  Part III: Floods.  4. Flood Monitoring using the Integration of Remote Sensing and Complementary Techniques.  5. Flood Studies using Synthetic Aperture Radar Data.  6. Remote Sensing of Mangrove Forests.  Part IV: Wetlands.  7. Remote Sensing of Mangrove Wetlands.  8. Wetland Mapping Methods and Techniques Using Multi-Sensor, Multi-Resolution Remote Sensing: Successes and Challenges.  9. Inland Valley Wetland Cultivation and Preservation for Africa?s Green and Blue Revolution using Multi-Sensor Remote Sensing.  Part V: Water Use and Water Productivity.  10. Remote Sensing of Evapotranspiration from Croplands.  11.   Modeling and Monitoring Water Productivity by Using Geotechnologies:  Assessments in some Brazilian Agroecosystems.  Part VI: Snow and Ice.  12. Remote Sensing Mapping and Modeling of Snow Cover Parameters and Applications.  Part VII: Summary and Synthesis for Volume V.  13. Remote Sensing Handbook, Volume V: Water Resources, Hydrology, Floods, Snow and Ice, Wetlands, and Water Productivity. 


 Volume VI - Part I: Droughts and Drylands.  1. Drought Monitoring Using Vegetation Health Indices.  2. Studies using Space-derived Vegetation and Biophysical Products: A Global Perspective.  3. Remote Sensing of Drought: Satellite-Based Monitoring Tools for the United States.  4. Regional Drought Monitoring Based on Multi-Sensor Remote Sensing.  5. Land Degradation Assessment and Monitoring of Drylands.  Part II: Disasters.  6. Disasters: Risk Assessment, Management and Post-Disaster Studies Using Remote Sensing.  7. Humanitarian Emergencies: Causes, Traits and Impacts as Observed by Remote Sensing.  Part III: Volcanoes.  8. Remote Sensing of Volcanoes.  Part IV: Fires.  9. Satellite-derived Nitrogen Dioxide Variations from Biomass Burning in a Subtropical Evergreen Forest, Northeast India.  10. Remote Sensing-Based Mapping and Monitoring of Coal Fires.  Part V: Urban.  11. Urban Growth and Climatic Mapping of Mega Cities: Multi-Sensor Approach.  12. High-Resolution Remote Sensing and Visibility Analysis Method for Smart Environment Design.  Part VI: Nightlights.  13. Nighttime Light Remote Sensing -- Monitoring Human Societies from Outer Space.  Part VII: Summary and Synthesis for Volume VI.  14. Remote Sensing Handbook, Volume VI: Droughts, Disasters, Pollution, and Urban Mapping.