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Optical remote sensing of air pollution : lectures of a course held at the Joint Research Centre, Ispra (Italy), 12-15 April, 1983 /
| Clasificación: | Libro Electrónico |
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| Autor Corporativo: | |
| Otros Autores: | , |
| Formato: | Electrónico eBook |
| Idioma: | Inglés |
| Publicado: |
Oxford, England ; New York :
Commission of the European Communities,
1984.
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| Colección: | Ispra courses on chemical and environmental science.
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| Temas: | |
| Acceso en línea: | Texto completo |
Tabla de Contenidos:
- Front Cover; Optical Remote Sensing of Air Pollution; Copyright Page ; Table of Contents; CHAPTER 1. SCATTERING, ABSORPTION, EMISSION AND RADIATIVE TRANSFER IN THE ATMOSPHERE; 1 QUANTITIES FOR DESCRIBING THE RADIATION FIELD; 2 RADIATION SOURCES; 3 INTERACTION BETWEEN RADIATION AND MATTER; 4 LAW OF EXTINCTION; 5 EXTINCTION IN THE ATMOSPHERE; 6 SCATTERING FUNCTIONS; 7 SCATTERING IN THE ATMOSPHERE; 8 RADIATIVE TRANSFER EQUATIONS; 9 THE RADIATIVE TRANSFER EQUATION AS THE BASIC EQUATION FOR REMOTE SENSING; REFERENCES; CHAPTER 2. PRINCIPLES OF REMOTE SENSING TECHNIQUES.
- 1 definition of remote sensing2 remote sensing as an inversion problem; 3 complexity of remote sensing tasks; 4 basic measuring geometries and matter-radiation interactions; 5 adaptation of the radiative transfer equation for remote sensing techniques; 6 active multifrequency methods; 7 spectral filtering methods; 8 fluorescence and raman scattering; 9 final remarks; chapter 3. absorption correlation spectrometry; 1. introduction; 2. some basic concepts in spectroscopic remote sensing; 3. cross-correlation functions in spectrometry; 4. the cospec, a historical perspective.
- 5. operational characteristicsreferences; chapter 4. effects of atmospheric interactions in correlation spectrometry; 1. introduction; 2. atmospheric backgrounds; 3. generalized response functions and direct instrumental effects; 4. remote sensing implications; references; chapter 5. some applications op optical remote sensing to meteorology; 1. introduction; 2. measurements op clouds; 3. measurement op visibility; 4. the measurement op wind; 5. measurement op humidity; 6. the measurement op precipitation; 7. the measurement of temperature; 8. conclusion; references.
- Chapter 6. the principles of lidar1. introduction; 2. transmission and backscatter of laser radiation in thf atmosphere; 3. detection limits; acknowledgement; references; chapter 7. differential lidar and its applications; 1 introduction; 2 more detailed discussion of parameters in the dial equation; 3 absorption spectra of pollutants and atmospheric constituents; 4 lasers for dial measurements; 5 selection of dial wavelengths; 6 dial system components and design; 7 data processing; 8. dial applications and current systems; 9 future developments; acknowledgements; references.
- Chapter 8. raman lidar and its applications1 introduction; 2 background information on lidar techniques; 3 overview of rama� lidar measurements; 4 our work; 5 conclusion and perspectives 5; references; review papers; chapter 9. lidar applications to aerosols and particles; 1. introduction; 2. lidar monitoring on particulate media; 3. lidar observations on particles and aerosols; references; chapter 10. lidar applications: plume tracking and modeling; 1. introduction; 2. plume rise models; 3. lidar methodology in plume rise studies; 4. results; 5. conclusions; 6. nomenclature; 7. references.