Lectures in Bertinoro 23 Aug – 2 Sep 2004
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Transcript of Lectures in Bertinoro 23 Aug – 2 Sep 2004
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International Summer School onApplications with the Newest Multi-spectral Meteorological Satellites Lectures in Bertinoro 23 Aug 2 Sep 2004
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Opening WelcomeFourth Seminar after Bologna-2001, Rome-2002 and Maratea-2003
Links with the Master in Applied Meteorology of the University of Bologna
It is the end result of an international collaborative effort
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INITIATIVE & Main sponsorship
CIMSS, NOAADept. of Physics, University of BolognaOther sponsoring Agencies: European Union
ARPA-SIM
ISAC-CNR
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. and also
EumetsatFondazione Cassa dei Risparmi ForlSERINAR (Servizi Integrati dArea)Provincia Forl-Cesena
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Practicalities: Dinner coupons: get them during coffee-break MMA students: certification of stage hours Sunday: visit to Ravenna and Cervia (please sign up) Social Dinner on Wednesday Sept. 1 evening Ice breaker after the end of todays lecture
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Remote Sensing SeminarLectures in Bertinoro 23 Aug 2 Sep 2004
Paolo AntonelliUW/CIMSSUniversita' del Sannio, Italy
Rolando RizziUniversita' di Bologna, Italy
Raffaella MatarreseUniversita' di Bari, ItalyRoberto EpiscopoUniversita' del Sannio, ItalyTiziano Maestri Universita' di Bologna, Italy
Paul MenzelNOAA/NESDIS/ORA
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Bologna StudentsSeptember 2001
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Roma StudentsJune 2002
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Maratea Students May 2003
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Bertinoro Students Aug 2004
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BERTINORO International Summer School Applications with the Newest Multi-spectral Meteorological Satellites23 August 2 September 2004M pmWelcomeDiscussion of Agenda [Menzel, Rizzi]Lecture 1aRadiation and the Radiative Transfer Equation [Menzel]Lab Introduction to the Labs and Hydra [Antonelli]Ice BreakerT amLecture 1bRadiation and the Radiative Transfer Equation [Menzel]Lecture 2aSpectral signatures of Earths sfc & atm [Menzel]HomeworkT pmLab 1aMulti-spectral Data [Antonelli, Menzel] Staging, Viewing, Interrogating MODIS DataW amLecture 2bRemote Sensing Advances with MODIS including cloudand aerosol detection [Menzel]W pmLab 1bMulti-spectral Data [Antonelli, Menzel] Multi-spectral Sfc, Cloud, and Aerosol PropertiesR amLecture 3aIntroducing Infrared Hyperspectral Data[Menzel]R pm Lab 2aHigh Spectral Resolution IR data [Antonelli] Staging, Viewing, Interrogating AIRS and SHIS Data F amQuiz 1Lecture 3bDetecting moisture, cloud, and aerosol with High SpectralResolution Sounders [Menzel]F pmLab 2bHigh Spectral Resolution IR data [Antonelli] Exploring the Spectral Properties
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BERTINORO International Summer School Applications with the Newest Multi-spectral Meteorological Satellites23 August 2 September 2004
Sa am Lecture 5Introducing MSG [Menzel]Lab 3Detection of Fog, Clouds, Dust,.with MSG [Antonelli]Sa pmWork Time (homework and Labs)Sufree dayM amDiscussionIntroducing Group Projects [Menzel, Antonelli] (Cal/Val, O3, Eco Syst, Volcanic Ash, Cld & Aerosol) M pmLab 4aGroup Projects [Antonelli, Tutors]T amLecture 4Instrument Considerations and Cal/Val [Menzel]Lab 4bContinue Group Lab Projects [Antonelli, Tutors]T pmLab 4cContinue Group Lab Projects [Antonelli, Tutors]W amHand in HomeworkLab 4dFinish Group Lab Projects [Antonelli, Tutors]W pmLab 4ePresentation of Group Lab Projects [Students, Antonelli] Lecture 7Summary of Remote Sensing Lessons [Menzel, Antonelli, Tutors]Group DinnerR amDiscussionHomework SolutionsQuiz 2Lecture 6Evolving to the Future Global Observing System [Menzel]DiscussionLonger Term ProjectsConcluding CeremonyAM sessions: 10:00 am 12:30 pm PM sessions: 2:30 pm 5:00 pm http://barrage.ssec.wisc.edu/~paoloa/teaching/Bertinoro2004/html/index.html
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WMO TD 1078 "Applications with Meteorological Satellites"
CHAPTER 2 - NATURE OF RADIATION 2.1 Remote Sensing of Radiation2-12.2 Basic Units2-12.3 Definitions of Radiation 2-22.5Related Derivations2-5CHAPTER 3 - ABSORPTION, EMISSION, REFLECTION, AND SCATTERING 3.1Absorption and Emission3-13.2Conservation of Energy3-13.3Planetary Albedo3-23.4Selective Absorption and Emission3-23.7Summary of Interactions between Radiation and Matter3-63.8Beer's Law and Schwarzchild's Equation3-73.9 Atmospheric Scattering3-93.10 The Solar Spectrum3-113.11Composition of the Earth's Atmosphere3-113.12 Atmospheric Absorption and Emission of Solar Radiation3-113.13 Atmospheric Absorption and Emission of Thermal Radiation3-123.14 Atmospheric Absorption Bands in the IR Spectrum3-133.15 Atmospheric Absorption Bands in the Microwave Spectrum3-143.16 Remote Sensing Regions3-14CHAPTER 5 - THE RADIATIVE TRANSFER EQUATION (RTE) 5.1 Derivation of RTE5-15.10Microwave Form of RTE5-28CHAPTER 12 - RADIOMETER DESIGN CONSIDERATIONS12.3Design Considerations12-1
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MODIS
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MSG
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AIRS20-July-2002 Ascending LW_Window
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WMO TD "Applications with Meteorological Satellites" can be obtained from [email protected]
Homework, Lab Exercises, Lecture ppt presentationsare or will be available on CD & the seminar web page http://barrage.ssec.wisc.edu/~paoloa/teaching/Bertinoro2004/html/index.html
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StudentsAnnarita AltavillaDaniele BironLaura CopersinoRosario CutuliMonica FranzeseAntonio GioiaBozena LapetaMatteo MasottiClaudio MeoliPietro NapolitanoFiammetta OrionePetr PesiceMassimo PilolliEnrico PisoniSara PoluzziDamiano SantilloYoshiro TanakaDu Duc Tien Nouara Tinakiche Giulio Todini
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.
Weve 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,