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E-raamat: Factor Separation in the Atmosphere: Applications and Future Prospects

Edited by (Tel-Aviv University), Edited by (Tel-Aviv University)
  • Formaat: PDF+DRM
  • Ilmumisaeg: 10-Feb-2011
  • Kirjastus: Cambridge University Press
  • Keel: eng
  • ISBN-13: 9780511855634
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Factor Separation in the Atmosphere: Applications and Future ProspectsSuurem pilt
  • Formaat: PDF+DRM
  • Ilmumisaeg: 10-Feb-2011
  • Kirjastus: Cambridge University Press
  • Keel: eng
  • ISBN-13: 9780511855634
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Modeling atmospheric processes in order to forecast the weather or future climate change is an extremely complex and computationally intensive undertaking. One of the main difficulties is that there are a huge number of factors that need to be taken into account, some of which are still poorly understood. The Factor Separation (FS) method is a computational procedure that helps deal with these nonlinear factors. In recent years many scientists have applied FS methodology to a range of modeling problems, including paleoclimatology, limnology, regional climate change, rainfall analysis, cloud modeling, pollution, crop growth, and other forecasting applications. This book is the first to describe the fundamentals of the method, and to bring together its many applications in the atmospheric sciences. The main audience is researchers and graduate students using the FS method, but it is also of interest to advanced students, researchers, and professionals across the atmospheric sciences.

Muu info

Provides a comprehensive description of novel approach to separate contributions from several factors in any dynamical process in the atmosphere.
List of contributors
vii
Foreword xiii
Preface xv
1 Introduction
1(4)
P. Alpert
2 The Factor Separation Methodology and the fractional approach
5(6)
T. Sholokhman
P. Alpert
3 Investigation of the Factor Separation features for basic mathematical functions
11(17)
T. Sholokhman
P. Alpert
4 Factor Separation Methodology and paleoclimates
28(25)
A. Berger
M. Claussen
Q. Yin
5 Meso-meteorology: Factor Separation examples in atmospheric meso-scale motions
53(14)
P. Alpert
6 Using the Alpert-Stein Factor Separation Methodology for land-use land-cover change impacts on weather and climate process with the Regional Atmospheric Modeling System
67(20)
A. Beltran-Przekurat
R. A. Pielke Sr.
J. L Eastman
G. T. Narisma
A. J. Pitman
M. Lei
D. Niyogi
7 Application of Factor Separation to heavy rainfall and cyclogenesis: Mediterranean examples
87(33)
R. Romero
8 Experience in applying the Alpert-Stein Factor Separation Methodology to assessing urban land-use and aerosol impacts on precipitation
120(26)
S. C. van den Heever
C. Rozoff
W. R. Cotton
9 Free and forced thermocline oscillations in Lake Tanganyika
146(17)
O. Gourgue
E. Deleersnijder
V. Legat
E. Marchal
L. White
10 Application of the Factor Separation Methodology to quantify the effect of waste heat, vapor and pollution on cumulus convection
163(8)
G. W. Reuter
11 The use of the Alpert-Stein Factor Separation Methodology for climate variable interaction studies in hydrological land surface models and crop yield models
171(13)
D. Niyogi
R. Mera
Yongkang Xue
G. Wilkerson
F. Booker
12 Linear model for the sea breeze
184(12)
T. Sholokhman
P. Alpert
13 Experience and conclusions from the Alpert-Stein Factor Separation Methodology: Ensemble data assimilation and forecasting applications
196(23)
D. Rostkier-Edelstein
J. P. Hacker
14 Tagging systematic errors arising from different components of dynamics and physics in forecast models
219(18)
T. N. Krishnamurti
Vinay Kumar
15 Some difficulties and prospects
237(8)
P. Alpert
T. Sholokhman
16 Summary
245(5)
P. Alpert
Appendix: References employing the Alpert-Stein Factor Separation Methodology 250(4)
References 254(18)
Index 272
Pinhas Alpert is Professor of Dynamic Meteorology and Climate and Head of the Porter School of Environmental Sciences, Tel-Aviv University, Israel. He is a co-author of more than 165 peer-reviewed articles mainly on aspects of mesoscale dynamics and climate. His research focuses on atmospheric dynamics, climatology, numerical methods, limited area modeling and climate change. Tatiana Sholokhman is currently a PhD student at the Department of Geophysics and Planetary Science at Tel-Aviv University, Israel.
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