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A comprehensive manual exploring radiometry methodologies and principles used with satellite-, radiometer- and thermal-camera data, for academic researchers and graduate students.
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A comprehensive manual exploring radiometry methodologies and principles used with satellite-, radiometer- and thermal-camera data, for academic researchers and graduate students.
Produktdetails
- Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 736
- Erscheinungstermin: 10. Juni 2013
- Englisch
- Abmessung: 249mm x 180mm x 38mm
- Gewicht: 1633g
- ISBN-13: 9780521859455
- ISBN-10: 052185945X
- Artikelnr.: 36684403
- Verlag: Cambridge University Press
- Seitenzahl: 736
- Erscheinungstermin: 10. Juni 2013
- Englisch
- Abmessung: 249mm x 180mm x 38mm
- Gewicht: 1633g
- ISBN-13: 9780521859455
- ISBN-10: 052185945X
- Artikelnr.: 36684403
Andrew Harris is a professor at Université Blaise Pascal (Clermont Ferrand, France) and holder of the Chaire d'Excellence for the Auvergne region. He is a member of the Remote Sensing Society, IAVCEI and AGU and has worked with a variety of ground- and satellite-based thermal data sets, having deployed experiments at active volcanoes in Africa, Europe, Central America, South America and Hawaii. Dr Harris has published over 130 publications in international scientific journals dedicated to thermal remote sensing and volcanology. His work has been recognised by several awards, including IAVCEI's Wager medal (2004) and the University of Hawai'i Regents' Medals for both excellence in research (2003) and teaching (2005).
Preface: background, motivation and essential definitions
Acknowledgements
1. History of thermal remote sensing of active volcanism
2. Thermal remote sensing of active volcanism: principles
3. Satellite orbits and sensor resolution
4. The mixed pixel, the dual-band technique, heat loss and volume flux
5. Hot spot detection
6. Mapping, classification, time series and profiles
7. Broad-band radiometers: instrumentation and application
8. Broad-band radiometers: data collection and analysis principles
9. Broad¿band thermal imaging cameras
Appendix A. Collation and summary of satellite-volcano radiometry: a literature database
Appendix B. Estimation of solar zenith angle and contribution of reflected radiation to at-satellite radiance
Appendix C. TM-Class sensors
Appendix D. AVHRR-Class sensors
Appendix E. GOES-Class sensors
Appendix F. Scan and satellite location geometry
Appendix G. Hot spot detection example
Appendix H. Optical pyrometers
References
Index.
Acknowledgements
1. History of thermal remote sensing of active volcanism
2. Thermal remote sensing of active volcanism: principles
3. Satellite orbits and sensor resolution
4. The mixed pixel, the dual-band technique, heat loss and volume flux
5. Hot spot detection
6. Mapping, classification, time series and profiles
7. Broad-band radiometers: instrumentation and application
8. Broad-band radiometers: data collection and analysis principles
9. Broad¿band thermal imaging cameras
Appendix A. Collation and summary of satellite-volcano radiometry: a literature database
Appendix B. Estimation of solar zenith angle and contribution of reflected radiation to at-satellite radiance
Appendix C. TM-Class sensors
Appendix D. AVHRR-Class sensors
Appendix E. GOES-Class sensors
Appendix F. Scan and satellite location geometry
Appendix G. Hot spot detection example
Appendix H. Optical pyrometers
References
Index.
Preface: background, motivation and essential definitions
Acknowledgements
1. History of thermal remote sensing of active volcanism
2. Thermal remote sensing of active volcanism: principles
3. Satellite orbits and sensor resolution
4. The mixed pixel, the dual-band technique, heat loss and volume flux
5. Hot spot detection
6. Mapping, classification, time series and profiles
7. Broad-band radiometers: instrumentation and application
8. Broad-band radiometers: data collection and analysis principles
9. Broad¿band thermal imaging cameras
Appendix A. Collation and summary of satellite-volcano radiometry: a literature database
Appendix B. Estimation of solar zenith angle and contribution of reflected radiation to at-satellite radiance
Appendix C. TM-Class sensors
Appendix D. AVHRR-Class sensors
Appendix E. GOES-Class sensors
Appendix F. Scan and satellite location geometry
Appendix G. Hot spot detection example
Appendix H. Optical pyrometers
References
Index.
Acknowledgements
1. History of thermal remote sensing of active volcanism
2. Thermal remote sensing of active volcanism: principles
3. Satellite orbits and sensor resolution
4. The mixed pixel, the dual-band technique, heat loss and volume flux
5. Hot spot detection
6. Mapping, classification, time series and profiles
7. Broad-band radiometers: instrumentation and application
8. Broad-band radiometers: data collection and analysis principles
9. Broad¿band thermal imaging cameras
Appendix A. Collation and summary of satellite-volcano radiometry: a literature database
Appendix B. Estimation of solar zenith angle and contribution of reflected radiation to at-satellite radiance
Appendix C. TM-Class sensors
Appendix D. AVHRR-Class sensors
Appendix E. GOES-Class sensors
Appendix F. Scan and satellite location geometry
Appendix G. Hot spot detection example
Appendix H. Optical pyrometers
References
Index.