Remote Sensing Seminar

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Presentation transcript:

Remote Sensing Seminar Lectures in Maratea 22 – 31 May 2003 Hank Revercomb Paolo Antonelli UW/CIMSS Vincenzo Cuomo Carmine Serio Filomena Romana IMAA/Italy Christophe Accadia Roma, Italy Tiziania Cherubini Hawaii, USA Paul Menzel NOAA/NESDIS/ORA

Bologna Students September 2001

Roma Students June 2002

Maratea Remote Sensing Seminar 22 – 31 May 2003 Supported by CNR-IMAA (Potenza) and EUMETSAT (Darmstadt)   R pm Welcome – Discussion of Agenda [Menzel, Cuomo] Lecture 1 – Radiation and the Radiative Transfer Equation [Menzel] Lab – Introduction to the Labs and MATLAB [Antonelli] F am Lecture 2 – Spectral signatures from Earth’s sfc & atm [Menzel] F pm Lecture 2 – Remote Sensing Advances with MODIS including cloud and aerosol detection [Menzel] Homework 1 Sa am Lab 1 – Multi-spectral Data [Antonelli, Menzel] Staging, Viewing, Interrogating MODIS Data Multi-spectral Cloud Mask Properties Sa pm free Su am free Su pm Group Dinner M am Quiz 1 Lecture 3 – Introducing IR Hyperspectral Data [Revercomb] –   Detecting moisture, cloud, and aerosol with High Spectral Resolution Sounders [Revercomb] M pm Lab 2a – High Spectral Resolution IR data [Antonelli, Revercomb] Staging, Viewing, Interrogating AIRS and SHIS Data

Maratea Remote Sensing Seminar 22 – 31 May 2003 Supported by CNR-IMAA (Potenza) and EUMETSAT (Darmstadt) T am Lecture 4-6 – Instrument Considerations and Cal/Val [Revercomb, Menzel] T pm Lab 2b – High Spectral Resolution IR data [Antonelli, Revercomb] Mapping Surface, Cloud, and Aerosol Properties W am Lecture 7&8 – Introducing MSG and Investigating AIRS [Menzel] W pm Lab 2c – High Spectral Resolution IR data [Antonelli, Revercomb] R am Lab 3a Group Projects (Cal/Val, Noise, N*, Eco Syst, Cld & Aerosol) [Antonelli, Revercomb, Cherubini, Accadia, Bernardini] R pm Lab 3b – Finish Group Lab Projects F am Lab 3c – Presentation by Lab Groups [Students, Antonelli] F pm Quiz 2 Review Homework and Quizzes Discussion – Summary of Remote Sensing Lessons [Menzel, Revercomb, Antonelli] Evening Get-Together Sa am Lecture 9 Evolving to the Future Global Observing System [Menzel] Discussion of Longer Term Projects Concluding Ceremony   AM sessions: 10:00 am – 12:30 pm – PM sessions: 2:30 pm – 5:00 pm http://barrage.ssec.wisc.edu/~paoloa/teaching/Maratea2003/html/index.html posting updates

WMO TD 1078 "Applications with Meteorological Satellites" CHAPTER 2 - NATURE OF RADIATION 2.1 Remote Sensing of Radiation 2-1 2.2 Basic Units 2-1 2.3 Definitions of Radiation 2-2 2.5 Related Derivations 2-5 CHAPTER 3 - ABSORPTION, EMISSION, REFLECTION, AND SCATTERING 3.1 Absorption and Emission 3-1 3.2 Conservation of Energy 3-1 3.3 Planetary Albedo 3-2 3.4 Selective Absorption and Emission 3-2 3.7 Summary of Interactions between Radiation and Matter 3-6 3.8 Beer's Law and Schwarzchild's Equation 3-7 3.9 Atmospheric Scattering 3-9 3.10 The Solar Spectrum 3-11 3.11 Composition of the Earth's Atmosphere 3-11 3.12 Atmospheric Absorption and Emission of Solar Radiation 3-11 3.13 Atmospheric Absorption and Emission of Thermal Radiation 3-12 3.14 Atmospheric Absorption Bands in the IR Spectrum 3-13 3.15 Atmospheric Absorption Bands in the Microwave Spectrum 3-14 3.16 Remote Sensing Regions 3-14 CHAPTER 5 - THE RADIATIVE TRANSFER EQUATION (RTE) 5.1 Derivation of RTE 5-1 5.10 Microwave Form of RTE 5-28 CHAPTER 12 - RADIOMETER DESIGN CONSIDERATIONS 12.3 Design Considerations 12-1

MODIS

MSG

AIRS 20-July-2002 Ascending LW_Window This shows the ascending data (day-time) for the current AIRS “focus day” of 20 July 2002. The image is of a longwave window channel brightness temperature (using a GOES colormap), along with various sample spectra. We’ve had global observations of high spectral resolution before (IRIS and IMG), but they were not really atmospheric profile sounders. The AIRS data is very clean, and the applications are numerous. This is what many of us have been waiting for, and working towards for many years. There are many un-tapped opportunities: SO2 detection from volcanoes, the blue-spike fire detection, new cloud detection techniques, low level inversion detection for severe weather, new spectroscopy investigations, climate change signatures, …

WMO TD "Applications with Meteorological Satellites" can be obtained from Hinsman_D@gateway.wmo.ch Homework, Lab Exercises, Lecture ppt presentations are or will be available on CD & the seminar web page http://barrage.ssec.wisc.edu/~paoloa/teaching /Maratea2003/html/index.html

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