@book
{TN_libero_mab2,
author = {
Alpert, Pinhas
AND
Sholokhman, Tatiana
AND
Sholokhman, Tatiana
},
title = {
Factor separation in the atmosphere
applications and future prospects
},
edition = {
1. publ.
}
,
publisher = {Cambridge University Press},
isbn = {0521191734},
isbn = {9780521191739},
keywords = {
Atmospheric diffusion Mathematical models
,
Meteorology Mathematical methods
,
Factorization (Mathematics)
,
Atmosphere
,
Mathematical models
,
Aufsatzsammlung
,
Meteorologie
,
Faktorisierung
},
year = {c 2011},
abstract = {1. Introduction P. Alpert},
abstract = {1.Introduction P. Alpert},
abstract = {2. The Factor Separation Methodology and the fractional approach T. Sholokhman and P. Alpert},
abstract = {3. Investigation of the Factor Separation features for basic mathematical functions T. Sholokhman and P. Alpert},
abstract = {4. Factor Separation Methodology and paleoclimates A. Berger, M. Claussen and Q. Yin},
abstract = {5. Meso-meteorology: Factor Separation examples in atmospheric meso-scale motions P. Alpert},
abstract = {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 A. Beltrán-Przekurat, R.A. Piekle Sr., J.L. Eastman, G.T. Narisma, A.J. Pitman, M. Lei, and D. Niyogi},
abstract = {7. Application of Factor Separation to heavy rainfall and cyclogenesis: Mediterranean examples R. Romero},
abstract = {8. Experience in applying the Alpert-Stein Factor Separation Methodology to assessing urban land-use and aerosol impacts on precipitation S.C. van den Heever, C. Rozoff, and W.R. Cotton},
abstract = {9. Free and forced thermocline oscillations in Lake Tanganyika O. Gourgue, E. Deleersnijder, V. Legat, E. Marchal, and L. White},
abstract = {10. Application of the Factor Separation Methodology to quantify the effect of waste heat, vapor and pollution on cumulus convection G.W. Reuter},
abstract = {11. The use of the Alpert-Stein Factor Separation Methodology for climate variable interaction studies in hydrological land surface models and crop yield models D. Niyogi, R. Mera, Yongkang Xue, G. Wilkerson, and F. Booker},
abstract = {12. Linear model for the sea breeze T. Sholokhman and P. Alpert},
abstract = {13. Experience and conclusions from the Alpert-Stein Factor Separation Methodology: Ensemble data assimilation and forecasting applications D. Rostkier-Edelstein and J.P. Hacker},
abstract = {14. Tagging systematic errors arising from different components of dynamics and physics in forecast models T. N. Krishnamurti and Vinay Kumar},
abstract = {15. Some difficulties and prospects P. Alpert and T. Sholokhman},
abstract = {16. Summary P. Alpert},
abstract = {Appendix: References employing the Alpert-Stein Factor Separation Methodology.},
abstract = {2.The Factor Separation Methodology and the fractional approach T. Sholokhman and P. Alpert},
abstract = {3.Investigation of the Factor Separation features for basic mathematical functions T. Sholokhman and P. Alpert},
abstract = {4.Factor Separation Methology and paleoclimates A. Berger, M. Claussen and Q. Yin},
abstract = {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 A. Beltrán-Przekurat, R.A. Piekle Sr., J.L. Eastman, G.T. Narisma, A.J. Pitman, M. Lei, and D. Niyogi},
abstract = {7.Application of Factor Separation to heavy rainfall and cyclogenesis: Mediterranean examples R. Romero},
abstract = {8.Experience in applying the Alpert-Stein Factor Separation Metholodolgy to assessing urban land-use and aerosol impacts on precipitation S.C. van den Heever, C. Rozoff, and W.R. Cotton},
abstract = {9.Free and forced thermocline oscillations in Lake Tanganyika O. Gourgue, E. Deleersnijder, V. Legat, E. Marchal, and L. White},
abstract = {10.Application of the Factor Separation Methodology to quantify the effect of waste heat, vapor and pollution on cumulus convection G.W. Reuter},
abstract = {11.The use of the Alpert-Stein Factor Separation Methodology for climate variable interaction studies in hydrological land surface models and crop yield models D. Niyogi, R. Mera, Yongkang Xue, G. Wilkerson, and F. Booker},
abstract = {12.Linear model for the sea breeze T. Sholokhman and P. Alpert},
abstract = {13.Experience and conclusions from the Alpert-Stein Factor Separation Methodology: Ensemble data assimilation and forecasting applications D. Rostkier-Edelstein and J.P. Hacker},
abstract = {14.Tagging systematic errors arising from different components of dynamics and physics in forecast models T. N. Krishnamurti and Vinay Kumar},
abstract = {15.Some difficulties and prospects P. Alpert and T. Sholokhman},
abstract = {16.Summary P. Alpert},
address = {
Cambridge [u.a.]
},
url = {
http://slubdd.de/katalog?TN_libero_mab2
}
}