This book discusses recent advances in remote sensing techniques for topographic and thematic mapping applications. The text covers modern photogrammetry, LiDAR remote sensing, and advanced image classification techniques; the use of remote sensing and image-processing techniques for extracting geographic features needed for topographic map production; and the synergistic use of remote sensing and image-processing techniques for environmental and ecological mapping. This book provides a state-of-the-art review for researchers and students working in remote sensing, photogrammetry, geographic information systems, geography, and environmental science.…mehr
This book discusses recent advances in remote sensing techniques for topographic and thematic mapping applications. The text covers modern photogrammetry, LiDAR remote sensing, and advanced image classification techniques; the use of remote sensing and image-processing techniques for extracting geographic features needed for topographic map production; and the synergistic use of remote sensing and image-processing techniques for environmental and ecological mapping. This book provides a state-of-the-art review for researchers and students working in remote sensing, photogrammetry, geographic information systems, geography, and environmental science.
Xiaojun Yang is a tenured faculty member with the Department of Geography at Florida State University, USA. His research focuses on the development of geospatial science and technology to support geographic inquiries in urban and environmental domains. Dr. Yang has performed research for NASA and received grants from the NSF and EPA. He has authored or coauthored more than 80 English publications, including five books with John Wiley, Springer, and CRC/Taylor & Francis. Dr. Yang has served as a guest editor for several peer-reviewed journals including Photogrammetric Engineering and Remote Sensing, ISPRS Journal of Photogrammetry and Remote Sensing, International Journal of Remote Sensing, Computers, Environment and Urban Systems, and Environmental Management. He currently serves the second term as chair of the International Cartographic Association (ICA) Commission on Mapping from Remote Sensor Imagery (2011-2015) and director of the Cartography and Geographic Information Society (2012-2015). Jonathan Li is professor of geomatics at the University of Waterloo in Canada. His research interests include remote sensing, mobile mapping, and geographic information systems. Dr. Li has authored more than 190 publications, including five books with Springer and Taylor & Francis. He is vice chair of the International Cartographic Association (ICA) Commission on Mapping from Remote Sensor Imagery (2011-2015), chair of the ISPRS Inter-Commission Working Group V/I on Land-Based Mobile Mapping Systems (2008-2012), and vice chair of the International Federation of Surveyors (FIG) Commission 4 on Hydrography (2011-2014).
Inhaltsangabe
Modern photogrammetric mapping. Airborne LiDAR remote sensing and its applications. Advanced algorithms for land use and cover classification. Global digital elevation model development from satellite remote-sensing data. Digital elevation model generation from satellite interferometric synthetic aperture radar. Shoreline mapping. Seeing residential buildings from remotely sensed imagery: An object-oriented approach. Assessment of urbanization patterns and trends in the Gulf of Mexico region of the southeast United States with Landsat and nighttime lights imagery. Fractional vegetation cover mapping from the HJ-1 small satellite hyperspectral data. Estimating and mapping forest leaf area index using satellite imagery. Effects of the spatial pattern of vegetation cover on urban warming in a desert city. Remote sensing of algal blooms in inland waters using the matrix inversion method and semiempirical algorithms. Advanced geospatial techniques for mapping and monitoring invasive species. Surface deformation mapping with persistent scatterer radar interferometry. Mapping marine oil spills from space. Remote-sensing techniques for natural disaster impact assessment.
Modern photogrammetric mapping. Airborne LiDAR remote sensing and its applications. Advanced algorithms for land use and cover classification. Global digital elevation model development from satellite remote-sensing data. Digital elevation model generation from satellite interferometric synthetic aperture radar. Shoreline mapping. Seeing residential buildings from remotely sensed imagery: An object-oriented approach. Assessment of urbanization patterns and trends in the Gulf of Mexico region of the southeast United States with Landsat and nighttime lights imagery. Fractional vegetation cover mapping from the HJ-1 small satellite hyperspectral data. Estimating and mapping forest leaf area index using satellite imagery. Effects of the spatial pattern of vegetation cover on urban warming in a desert city. Remote sensing of algal blooms in inland waters using the matrix inversion method and semiempirical algorithms. Advanced geospatial techniques for mapping and monitoring invasive species. Surface deformation mapping with persistent scatterer radar interferometry. Mapping marine oil spills from space. Remote-sensing techniques for natural disaster impact assessment.
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