Stochastic Physics and Climate Modelling
Herausgeber: Palmer, Timothy N; Williams, Paul
Stochastic Physics and Climate Modelling
Herausgeber: Palmer, Timothy N; Williams, Paul
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The first book to promote the use of stochastic, or random, processes to understand, model and predict our climate system.
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The first book to promote the use of stochastic, or random, processes to understand, model and predict our climate system.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 496
- Erscheinungstermin: 1. März 2018
- Italienisch
- Abmessung: 244mm x 170mm x 25mm
- Gewicht: 785g
- ISBN-13: 9781108446990
- ISBN-10: 110844699X
- Artikelnr.: 49564732
- Herstellerkennzeichnung
- Libri GmbH
- Europaallee 1
- 36244 Bad Hersfeld
- gpsr@libri.de
- Verlag: Cambridge University Press
- Seitenzahl: 496
- Erscheinungstermin: 1. März 2018
- Italienisch
- Abmessung: 244mm x 170mm x 25mm
- Gewicht: 785g
- ISBN-13: 9781108446990
- ISBN-10: 110844699X
- Artikelnr.: 49564732
- Herstellerkennzeichnung
- Libri GmbH
- Europaallee 1
- 36244 Bad Hersfeld
- gpsr@libri.de
Preface Tim Palmer and Paul Williams; Introduction: stochastic physics and
climate modelling Tim Palmer and Paul Williams; 1. Mechanisms of climate
variability from years to decades Geoffrey Vallis; 2. Empirical model
reduction and the modeling hierarchy in climate dynamics and the
geosciences Sergey Kravtsov, Dmitri Kondrashov and Michael Ghil; 3. An
applied mathematics perspective on stochastic modelling for climate Andrew
J. Majda, Christian Franzke and Boualem Khouider; 4. Predictability in
nonlinear dynamical systems with model uncertainty Jinqiao Duan; 5. On
modelling physical systems with stochastic models: diffusion versus Lévy
processes Cécile Penland and Brian D. Ewald; 6. First passage time analysis
for climate prediction Peter C. Chu; 7. Effects of stochastic
parametrization on conceptual climate models Daniel S. Wilks; 8. Challenges
in stochastic modelling of quasigeostrophic turbulence Timothy DelSole; 9.
Orientation of eddy fluxes in geostrophic turbulence Balasubramanya T.
Nadiga; 10. Stochastic theories for the irregularity of ENSO Richard
Kleeman; 11. Stochastic models of the meridional overturning circulation:
time scales and patters of variability Adam H. Monahan, Julie Alexander and
Andrew J. Weaver; 12. A stochastic dynamical systems view of the Atlantic
Multidecadal Oscillation Henk A. Dijkstra, Leela M. Frankcombe and Anna S.
von der Heydt; 13. Centennial-to-millennial-scale Holocene climate
variability in the North Atlantic region induced by noise Matthias Prange,
Jochen I. Jongma and Michael Schulz; 14. Cloud radiative interactions and
their uncertainty in climate models Adrian Tompkins and Francesca Di
Giuseppe; 15. Impact of a quasi-stochastic cellular automaton backscatter
scheme on the systematic error and seasonal prediction skill of a global
climate model Judith Berner, Francisco Doblas-Reyes, Tim Palmer, Glenn J.
Shutts and Antje Weisheimer; 16. Rethinking convective quasi-equilibrium:
observational constraints for stochastic convective schemes in climate
models J. David Neelin, Ole Peters, Katrina Hales, Christopher E. Holloway
and Johnny W. B. Lin; 17. Comparison of stochastic parametrization
approaches in a single-column model Michael A. W. Ball and Robert S. Plant;
18. Stochastic parametrization of multiscale processes using a dual-grid
approach Thomas Allen, Glenn J. Shutts and Judith Berner; Index.
climate modelling Tim Palmer and Paul Williams; 1. Mechanisms of climate
variability from years to decades Geoffrey Vallis; 2. Empirical model
reduction and the modeling hierarchy in climate dynamics and the
geosciences Sergey Kravtsov, Dmitri Kondrashov and Michael Ghil; 3. An
applied mathematics perspective on stochastic modelling for climate Andrew
J. Majda, Christian Franzke and Boualem Khouider; 4. Predictability in
nonlinear dynamical systems with model uncertainty Jinqiao Duan; 5. On
modelling physical systems with stochastic models: diffusion versus Lévy
processes Cécile Penland and Brian D. Ewald; 6. First passage time analysis
for climate prediction Peter C. Chu; 7. Effects of stochastic
parametrization on conceptual climate models Daniel S. Wilks; 8. Challenges
in stochastic modelling of quasigeostrophic turbulence Timothy DelSole; 9.
Orientation of eddy fluxes in geostrophic turbulence Balasubramanya T.
Nadiga; 10. Stochastic theories for the irregularity of ENSO Richard
Kleeman; 11. Stochastic models of the meridional overturning circulation:
time scales and patters of variability Adam H. Monahan, Julie Alexander and
Andrew J. Weaver; 12. A stochastic dynamical systems view of the Atlantic
Multidecadal Oscillation Henk A. Dijkstra, Leela M. Frankcombe and Anna S.
von der Heydt; 13. Centennial-to-millennial-scale Holocene climate
variability in the North Atlantic region induced by noise Matthias Prange,
Jochen I. Jongma and Michael Schulz; 14. Cloud radiative interactions and
their uncertainty in climate models Adrian Tompkins and Francesca Di
Giuseppe; 15. Impact of a quasi-stochastic cellular automaton backscatter
scheme on the systematic error and seasonal prediction skill of a global
climate model Judith Berner, Francisco Doblas-Reyes, Tim Palmer, Glenn J.
Shutts and Antje Weisheimer; 16. Rethinking convective quasi-equilibrium:
observational constraints for stochastic convective schemes in climate
models J. David Neelin, Ole Peters, Katrina Hales, Christopher E. Holloway
and Johnny W. B. Lin; 17. Comparison of stochastic parametrization
approaches in a single-column model Michael A. W. Ball and Robert S. Plant;
18. Stochastic parametrization of multiscale processes using a dual-grid
approach Thomas Allen, Glenn J. Shutts and Judith Berner; Index.
Preface Tim Palmer and Paul Williams; Introduction: stochastic physics and
climate modelling Tim Palmer and Paul Williams; 1. Mechanisms of climate
variability from years to decades Geoffrey Vallis; 2. Empirical model
reduction and the modeling hierarchy in climate dynamics and the
geosciences Sergey Kravtsov, Dmitri Kondrashov and Michael Ghil; 3. An
applied mathematics perspective on stochastic modelling for climate Andrew
J. Majda, Christian Franzke and Boualem Khouider; 4. Predictability in
nonlinear dynamical systems with model uncertainty Jinqiao Duan; 5. On
modelling physical systems with stochastic models: diffusion versus Lévy
processes Cécile Penland and Brian D. Ewald; 6. First passage time analysis
for climate prediction Peter C. Chu; 7. Effects of stochastic
parametrization on conceptual climate models Daniel S. Wilks; 8. Challenges
in stochastic modelling of quasigeostrophic turbulence Timothy DelSole; 9.
Orientation of eddy fluxes in geostrophic turbulence Balasubramanya T.
Nadiga; 10. Stochastic theories for the irregularity of ENSO Richard
Kleeman; 11. Stochastic models of the meridional overturning circulation:
time scales and patters of variability Adam H. Monahan, Julie Alexander and
Andrew J. Weaver; 12. A stochastic dynamical systems view of the Atlantic
Multidecadal Oscillation Henk A. Dijkstra, Leela M. Frankcombe and Anna S.
von der Heydt; 13. Centennial-to-millennial-scale Holocene climate
variability in the North Atlantic region induced by noise Matthias Prange,
Jochen I. Jongma and Michael Schulz; 14. Cloud radiative interactions and
their uncertainty in climate models Adrian Tompkins and Francesca Di
Giuseppe; 15. Impact of a quasi-stochastic cellular automaton backscatter
scheme on the systematic error and seasonal prediction skill of a global
climate model Judith Berner, Francisco Doblas-Reyes, Tim Palmer, Glenn J.
Shutts and Antje Weisheimer; 16. Rethinking convective quasi-equilibrium:
observational constraints for stochastic convective schemes in climate
models J. David Neelin, Ole Peters, Katrina Hales, Christopher E. Holloway
and Johnny W. B. Lin; 17. Comparison of stochastic parametrization
approaches in a single-column model Michael A. W. Ball and Robert S. Plant;
18. Stochastic parametrization of multiscale processes using a dual-grid
approach Thomas Allen, Glenn J. Shutts and Judith Berner; Index.
climate modelling Tim Palmer and Paul Williams; 1. Mechanisms of climate
variability from years to decades Geoffrey Vallis; 2. Empirical model
reduction and the modeling hierarchy in climate dynamics and the
geosciences Sergey Kravtsov, Dmitri Kondrashov and Michael Ghil; 3. An
applied mathematics perspective on stochastic modelling for climate Andrew
J. Majda, Christian Franzke and Boualem Khouider; 4. Predictability in
nonlinear dynamical systems with model uncertainty Jinqiao Duan; 5. On
modelling physical systems with stochastic models: diffusion versus Lévy
processes Cécile Penland and Brian D. Ewald; 6. First passage time analysis
for climate prediction Peter C. Chu; 7. Effects of stochastic
parametrization on conceptual climate models Daniel S. Wilks; 8. Challenges
in stochastic modelling of quasigeostrophic turbulence Timothy DelSole; 9.
Orientation of eddy fluxes in geostrophic turbulence Balasubramanya T.
Nadiga; 10. Stochastic theories for the irregularity of ENSO Richard
Kleeman; 11. Stochastic models of the meridional overturning circulation:
time scales and patters of variability Adam H. Monahan, Julie Alexander and
Andrew J. Weaver; 12. A stochastic dynamical systems view of the Atlantic
Multidecadal Oscillation Henk A. Dijkstra, Leela M. Frankcombe and Anna S.
von der Heydt; 13. Centennial-to-millennial-scale Holocene climate
variability in the North Atlantic region induced by noise Matthias Prange,
Jochen I. Jongma and Michael Schulz; 14. Cloud radiative interactions and
their uncertainty in climate models Adrian Tompkins and Francesca Di
Giuseppe; 15. Impact of a quasi-stochastic cellular automaton backscatter
scheme on the systematic error and seasonal prediction skill of a global
climate model Judith Berner, Francisco Doblas-Reyes, Tim Palmer, Glenn J.
Shutts and Antje Weisheimer; 16. Rethinking convective quasi-equilibrium:
observational constraints for stochastic convective schemes in climate
models J. David Neelin, Ole Peters, Katrina Hales, Christopher E. Holloway
and Johnny W. B. Lin; 17. Comparison of stochastic parametrization
approaches in a single-column model Michael A. W. Ball and Robert S. Plant;
18. Stochastic parametrization of multiscale processes using a dual-grid
approach Thomas Allen, Glenn J. Shutts and Judith Berner; Index.