Atmospheric measurement techniques |
Pubbl/distr/stampa | [Katlenburg-Lindau, Germany], : Copernicus, 2008- |
Soggetto topico |
Atmosphere - Measurement
Meteorological instruments Atmosphere - Remote sensing Atmospheric models Meteorology - Mathematical models |
Soggetto genere / forma | Periodicals. |
ISSN | 1867-8548 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Periodico |
Lingua di pubblicazione | eng |
Altri titoli varianti | AMT |
Record Nr. | UNINA-9910143084303321 |
[Katlenburg-Lindau, Germany], : Copernicus, 2008- | ||
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Lo trovi qui: Univ. Federico II | ||
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Atmospheric measurement techniques |
Pubbl/distr/stampa | [Katlenburg-Lindau, Germany], : Copernicus, 2008- |
Soggetto topico |
Atmosphere - Measurement
Meteorological instruments Atmosphere - Remote sensing Atmospheric models Meteorology - Mathematical models |
Soggetto genere / forma | Periodicals. |
ISSN | 1867-8548 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Periodico |
Lingua di pubblicazione | eng |
Altri titoli varianti | AMT |
Record Nr. | UNISA-996321407203316 |
[Katlenburg-Lindau, Germany], : Copernicus, 2008- | ||
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Lo trovi qui: Univ. di Salerno | ||
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Exploring the atmosphere by remote sensing techniques / R. Guzzi (ed.) |
Pubbl/distr/stampa | Berlin ; New York : Springer, c2003 |
Descrizione fisica | xii, 262 p. : ill. ; 24 cm |
Disciplina | 551.5110287 |
Altri autori (Persone) | Guzzi, Rodolfoauthor |
Collana | Lecture notes in physics, 0075-8450 ; 607 |
Soggetto topico |
Atmosphere - Remote sensing
Atmospheric chemistry - Remote sensing |
ISBN | 3540007091 (acid-free paper) |
Classificazione |
LC QC871
52.9.38 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Record Nr. | UNISALENTO-991001376579707536 |
Berlin ; New York : Springer, c2003 | ||
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Lo trovi qui: Univ. del Salento | ||
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Foundations of atmospheric remote sensing / / Dmitry Efremenko, Alexander Kokhanovsky |
Autore | Efremenko Dmitry |
Edizione | [1st ed. 2021.] |
Pubbl/distr/stampa | Cham, Switzerland : , : Springer, , [2021] |
Descrizione fisica | 1 online resource (XI, 297 p. 89 illus., 73 illus. in color.) |
Disciplina | 551.5028 |
Soggetto topico | Atmosphere - Remote sensing |
ISBN | 3-030-66745-6 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto | Introduction to remote sensing -- Physical properties of the terrestrial atmosphere -- Light scattering, absorption, extinction, and propagation in the terrestrial atmosphere -- Radiative transfer models. |
Record Nr. | UNINA-9910485052003321 |
Efremenko Dmitry
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Cham, Switzerland : , : Springer, , [2021] | ||
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Lo trovi qui: Univ. Federico II | ||
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Infrared observation of Earth's atmosphere / / Hervé Herbin, Philippe Dubuisson |
Autore | Herbin Hervé |
Pubbl/distr/stampa | Hoboken, NJ : , : Wiley, , 2015 |
Descrizione fisica | 1 online resource (197 p.) |
Disciplina | 551.5/2 |
Collana | Earth system -- environmental sciences |
Soggetto topico |
Atmospheric physics
Environmental sciences Infrared astronomy Radiative transfer Atmosphere - Remote sensing Atmospheric radiation |
ISBN |
1-119-01850-1
1-119-01849-8 1-119-01852-8 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Table of Contents; Title; Copyright; Acknowledgements; List of Symbols; List of Acronyms; Preface; Introduction; Chapter 1: Basic Physics of the Atmosphere and Radiation; 1.1. Structure and composition of Earth?s atmosphere; 1.2. Atmospheric aerosols; 1.3. Clouds; 1.4. Radiation in Earth?s atmosphere; 1.5. Radiation budget of the climate system; 1.6. For further information; Chapter 2: Instrumentation and Sensors; 2.1. Platforms, satellites and sensors; 2.2. Infrared detection techniques; 2.3. For further information; Chapter 3: Forward Radiative Transfer in Absorbing Atmosphere
3.1. Gaseous absorption and emission3.2. Radiative transfer equation in an absorbing medium; 3.3. Solving the RTE; 3.4. For further information; Chapter 4: Forward Radiative Transfer in Scattering Atmosphere; 4.1. Atmospheric scattering; 4.2. Polarization; 4.3. Radiative transfer equation (RTE) in a scattering medium; 4.4. Numerical methods to solve the RTE in a scattering plane?parallel medium; 4.5. List of radiative transfer codes; 4.6. For further information; Chapter 5: Methods of Geophysical Parameter Retrieval; 5.1. Inversion process; 5.2. Linear models; 5.3. Nonlinear inversion 5.4. Optimal estimation method (OEM)5.5. Lookup tables; 5.6. For further information; Chapter 6: Space Infrared Remote Sensing: Some Applications; 6.1. Water vapor isotopologues; 6.2. Biomass fires and trace gases; 6.3. Volcanic eruptions; 6.4. Physical properties of clouds; 6.5. For further information; Appendix; Bibliography; Index; End User License Agreement |
Record Nr. | UNINA-9910131536503321 |
Herbin Hervé
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Hoboken, NJ : , : Wiley, , 2015 | ||
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Lo trovi qui: Univ. Federico II | ||
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Infrared observation of Earth's atmosphere / / Hervé Herbin, Philippe Dubuisson |
Autore | Herbin Hervé |
Pubbl/distr/stampa | Hoboken, NJ : , : Wiley, , 2015 |
Descrizione fisica | 1 online resource (197 p.) |
Disciplina | 551.5/2 |
Collana | Earth system -- environmental sciences |
Soggetto topico |
Atmospheric physics
Environmental sciences Infrared astronomy Radiative transfer Atmosphere - Remote sensing Atmospheric radiation |
ISBN |
1-119-01850-1
1-119-01849-8 1-119-01852-8 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Table of Contents; Title; Copyright; Acknowledgements; List of Symbols; List of Acronyms; Preface; Introduction; Chapter 1: Basic Physics of the Atmosphere and Radiation; 1.1. Structure and composition of Earth?s atmosphere; 1.2. Atmospheric aerosols; 1.3. Clouds; 1.4. Radiation in Earth?s atmosphere; 1.5. Radiation budget of the climate system; 1.6. For further information; Chapter 2: Instrumentation and Sensors; 2.1. Platforms, satellites and sensors; 2.2. Infrared detection techniques; 2.3. For further information; Chapter 3: Forward Radiative Transfer in Absorbing Atmosphere
3.1. Gaseous absorption and emission3.2. Radiative transfer equation in an absorbing medium; 3.3. Solving the RTE; 3.4. For further information; Chapter 4: Forward Radiative Transfer in Scattering Atmosphere; 4.1. Atmospheric scattering; 4.2. Polarization; 4.3. Radiative transfer equation (RTE) in a scattering medium; 4.4. Numerical methods to solve the RTE in a scattering plane?parallel medium; 4.5. List of radiative transfer codes; 4.6. For further information; Chapter 5: Methods of Geophysical Parameter Retrieval; 5.1. Inversion process; 5.2. Linear models; 5.3. Nonlinear inversion 5.4. Optimal estimation method (OEM)5.5. Lookup tables; 5.6. For further information; Chapter 6: Space Infrared Remote Sensing: Some Applications; 6.1. Water vapor isotopologues; 6.2. Biomass fires and trace gases; 6.3. Volcanic eruptions; 6.4. Physical properties of clouds; 6.5. For further information; Appendix; Bibliography; Index; End User License Agreement |
Record Nr. | UNINA-9910830713403321 |
Herbin Hervé
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Hoboken, NJ : , : Wiley, , 2015 | ||
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Lo trovi qui: Univ. Federico II | ||
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The measurement of atmospheric transmittance from sun and sky with an infrared vertical sounder / / W.L. Smith and H.B. Howell |
Autore | Smith W. L. |
Pubbl/distr/stampa | Washington, D.C. : , : U.S. Department of Commerce, National Oceanic and Atmospheric Administration, National Environmental Satellite Service, , 1972 |
Descrizione fisica | 1 online resource (iii, 16 pages) : illustrations |
Collana | NOAA technical report NESS |
Soggetto topico |
Atmosphere - Remote sensing
Solar radiation - Remote sensing Atmospheric radiation - Remote sensing |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Record Nr. | UNINA-9910713983103321 |
Smith W. L.
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Washington, D.C. : , : U.S. Department of Commerce, National Oceanic and Atmospheric Administration, National Environmental Satellite Service, , 1972 | ||
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Lo trovi qui: Univ. Federico II | ||
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Solutions in lidar profiling of the atmosphere / / Vladimir A Kovalev |
Autore | Kovalev Vladimir A. |
Pubbl/distr/stampa | Hoboken, New Jersey : , : Wiley, , 2015 |
Descrizione fisica | 1 online resource (300 p.) |
Disciplina | 551.5028/7 |
Soggetto topico |
Atmosphere - Laser observations
Atmosphere - Remote sensing Meteorological optics |
ISBN |
1-118-96327-X
1-118-96328-8 1-118-96329-6 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Cover; Contents; Preface; Acknowledgments; Definitions; Chapter 1 Inversion of Elastic-Lidar Data as an ILL-Posed Problem; 1.1 Recording and Initial Processing of the Lidar Signal: Essentials and~Specifics; 1.1.1 Lidar Equation and Real Lidar Signal: How Well Do They Match?; 1.1.2 Multiplicative and Additive Distortions in the Lidar Signal: Essentials and Specifics; 1.2 Algorithms for Extraction of the Extinction-Coefficient Profile from the Elastic-Lidar Signal; 1.2.1 Basics; 1.2.2 Fernald's Boundary-Point Solution; 1.2.3 Optical Depth Solution
1.2.4 Implicit Premises and Mandatory Assumptions Required for~Inversion of the Elastic Lidar Signal into the Atmospheric Profile1.3 Profiling of the Optical Parameters of the Atmosphere as a Simulation Based on Past Observations; 1.3.1 Definitions of the Terms; 1.3.2 Random Systematic Errors in the Derived Atmospheric Profiles: Origin and Examples; 1.4 Error Factor in Lidar Data Inversion; 1.5 Backscatter Signal Distortions and Corresponding Errors in the Inverted Atmospheric Profiles; 1.6 Determination of the Constant Offset in the Recorded Lidar Signal Using~the Slope Method 1.6.1 Algorithm and Solution Uncertainty1.6.2 Numerical Simulations and Experimental Data; 1.7 Examination of the Remaining Offset in the Backscatter Signal by~Analyzing the Shape of the Integrated Signal; 1.8 Issues in the Examination of the Lidar Overlap Function; 1.8.1 Influence of Distortions in the Lidar Signal when Determining the~Overlap Function; 1.8.2 Issues of Lidar Signal Inversion within the Incomplete Overlap Area; Chapter 2 Essentials and Issues in Separating the Backscatter and Transmission Terms in The Lidar Equation 2.1 Separation of the Backscatter and Transmission Terms in the Lidar Equation: Methods and Intrinsic Assumptions2.1.1 Inversion Algorithm for the Signals of Raman Lidar; 2.1.2 Inversion Algorithm for the Signals of High Spectral Resolution Lidar (HSRL); 2.1.3 Inversion Algorithm for Signals of the Differential Absorption Lidar (DIAL); 2.2 Distortions in the Optical Depth and Extinction-Coefficient Profiles Derived from Raman Lidar Data; 2.2.1 Distortion of the Derived Extinction Coefficient Due to Uncertainty of the Angstrom Exponent 2.2.2 Errors in the Derived Optical Depth Profile Caused by Distortions in the Raman Lidar Signal2.2.3 Errors in the Derived Extinction-Coefficient Profile Caused by~Distortions in the Raman Lidar Signal; 2.3 Distortions in the Extinction-Coefficient Profile Derived from the HSRL~Signal; 2.4 Numerical Differentiation and the Uncertainty Inherent in the Inverted Data; 2.4.1 Basics; 2.4.2 Nonlinear Fit in the Numerical Differentiation Technique and~its~Issue; 2.4.3 Numerical Differentiation as a Filtering Procedure 2.5 Correction and Extrapolation Techniques for the Optical Depth Profile~Derived from the Splitting Lidar Data |
Record Nr. | UNINA-9910132259803321 |
Kovalev Vladimir A.
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Hoboken, New Jersey : , : Wiley, , 2015 | ||
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Lo trovi qui: Univ. Federico II | ||
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Solutions in lidar profiling of the atmosphere / / Vladimir A Kovalev |
Autore | Kovalev Vladimir A. |
Pubbl/distr/stampa | Hoboken, New Jersey : , : Wiley, , 2015 |
Descrizione fisica | 1 online resource (300 p.) |
Disciplina | 551.5028/7 |
Soggetto topico |
Atmosphere - Laser observations
Atmosphere - Remote sensing Meteorological optics |
ISBN |
1-118-96327-X
1-118-96328-8 1-118-96329-6 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Cover; Contents; Preface; Acknowledgments; Definitions; Chapter 1 Inversion of Elastic-Lidar Data as an ILL-Posed Problem; 1.1 Recording and Initial Processing of the Lidar Signal: Essentials and~Specifics; 1.1.1 Lidar Equation and Real Lidar Signal: How Well Do They Match?; 1.1.2 Multiplicative and Additive Distortions in the Lidar Signal: Essentials and Specifics; 1.2 Algorithms for Extraction of the Extinction-Coefficient Profile from the Elastic-Lidar Signal; 1.2.1 Basics; 1.2.2 Fernald's Boundary-Point Solution; 1.2.3 Optical Depth Solution
1.2.4 Implicit Premises and Mandatory Assumptions Required for~Inversion of the Elastic Lidar Signal into the Atmospheric Profile1.3 Profiling of the Optical Parameters of the Atmosphere as a Simulation Based on Past Observations; 1.3.1 Definitions of the Terms; 1.3.2 Random Systematic Errors in the Derived Atmospheric Profiles: Origin and Examples; 1.4 Error Factor in Lidar Data Inversion; 1.5 Backscatter Signal Distortions and Corresponding Errors in the Inverted Atmospheric Profiles; 1.6 Determination of the Constant Offset in the Recorded Lidar Signal Using~the Slope Method 1.6.1 Algorithm and Solution Uncertainty1.6.2 Numerical Simulations and Experimental Data; 1.7 Examination of the Remaining Offset in the Backscatter Signal by~Analyzing the Shape of the Integrated Signal; 1.8 Issues in the Examination of the Lidar Overlap Function; 1.8.1 Influence of Distortions in the Lidar Signal when Determining the~Overlap Function; 1.8.2 Issues of Lidar Signal Inversion within the Incomplete Overlap Area; Chapter 2 Essentials and Issues in Separating the Backscatter and Transmission Terms in The Lidar Equation 2.1 Separation of the Backscatter and Transmission Terms in the Lidar Equation: Methods and Intrinsic Assumptions2.1.1 Inversion Algorithm for the Signals of Raman Lidar; 2.1.2 Inversion Algorithm for the Signals of High Spectral Resolution Lidar (HSRL); 2.1.3 Inversion Algorithm for Signals of the Differential Absorption Lidar (DIAL); 2.2 Distortions in the Optical Depth and Extinction-Coefficient Profiles Derived from Raman Lidar Data; 2.2.1 Distortion of the Derived Extinction Coefficient Due to Uncertainty of the Angstrom Exponent 2.2.2 Errors in the Derived Optical Depth Profile Caused by Distortions in the Raman Lidar Signal2.2.3 Errors in the Derived Extinction-Coefficient Profile Caused by~Distortions in the Raman Lidar Signal; 2.3 Distortions in the Extinction-Coefficient Profile Derived from the HSRL~Signal; 2.4 Numerical Differentiation and the Uncertainty Inherent in the Inverted Data; 2.4.1 Basics; 2.4.2 Nonlinear Fit in the Numerical Differentiation Technique and~its~Issue; 2.4.3 Numerical Differentiation as a Filtering Procedure 2.5 Correction and Extrapolation Techniques for the Optical Depth Profile~Derived from the Splitting Lidar Data |
Record Nr. | UNINA-9910812563903321 |
Kovalev Vladimir A.
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Hoboken, New Jersey : , : Wiley, , 2015 | ||
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Lo trovi qui: Univ. Federico II | ||
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