Numerical Simulations in the Environmental and Earth Sciences
Herausgeber: Cisneros, Gerardo; García-García, Fernando; Fernández-Eguiarte, Agustín
Numerical Simulations in the Environmental and Earth Sciences
Herausgeber: Cisneros, Gerardo; García-García, Fernando; Fernández-Eguiarte, Agustín
- Gebundenes Buch
Andere Kunden interessierten sich auch für
![Numerical Simulations in the Environmental and Earth Sciences]( "Numerical Simulations in the Environmental and Earth Sciences")
Fernando García-García / Gerardo Cisneros / Agustin Fernandez-Eguiarte / Roman Alvarez (eds.)Numerical Simulations in the Environmental and Earth Sciences44,99 €![Mechanics in the Earth and Environmental Sciences]( "Mechanics in the Earth and Environmental Sciences")
Gerard V. MiddletonMechanics in the Earth and Environmental Sciences106,99 €![Noise-Induced Phenomena in the Environmental Sciences]( "Noise-Induced Phenomena in the Environmental Sciences")
Luca RidolfiNoise-Induced Phenomena in the Environmental Sciences147,99 €![Noise-Induced Phenomena in the Environmental Sciences]( "Noise-Induced Phenomena in the Environmental Sciences")
Luca RidolfiNoise-Induced Phenomena in the Environmental Sciences43,99 €![Machine Learning Methods in the Environmental Sciences]( "Machine Learning Methods in the Environmental Sciences")
William. W HsiehMachine Learning Methods in the Environmental Sciences41,99 €![Machine Learning Methods in the Environmental Sciences]( "Machine Learning Methods in the Environmental Sciences")
William W. HsiehMachine Learning Methods in the Environmental Sciences94,99 €![Environmental Reform in the Information Age]( "Environmental Reform in the Information Age")
Arthur P. J. MolEnvironmental Reform in the Information Age121,99 €-
-
-
Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 300
- Erscheinungstermin: 8. Februar 2016
- Englisch
- Abmessung: 260mm x 183mm x 21mm
- Gewicht: 765g
- ISBN-13: 9780521580472
- ISBN-10: 0521580471
- Artikelnr.: 21881472
Participants; Scientific committee; Organizing committee; Preface; Part I.
General Circulation Models and Global Change: 1. A general circulation
model of the atmosphere-ocean system; 2. Coupled ocean-atmosphere modeling:
computing and scientific aspects; 3. The OCCAM global ocean model; 4.
Climatic asymmetries relative to the equator; 5. On the use of a general
circulation model to study regional climate; 6. A numerical study of the
circulation and sea surface temperature of the Gulf of Mexico; 7. Pacific
region CO2 climate change in a global coupled climate model; 8. Prospects
and problems in modeling the impacts of climate change in Latin America; 9.
PIXSAT, a digital image processing system in a CRAY-UNIX environment; 10.
Marine productivity seasonal forecast along the Ecuadorian coastal zone
based on physical models of ENSO; 11. Land cover classification by means of
satellite imagery and supercomputer resources; Part. II. Dispersion and
Mesoscale Modeling: 12. Environmental applications of mesoscale atmospheric
models; 13. An integrated air pollution modeling system: application to the
Los Angeles Basin; 14. An h-adapting finite element model for atmospheric
transport of pollutants; 15. The applicability of a mesoscale model in the
Valley of Mexico during extreme air pollution episodes; 16. Mexico city air
quality simulations under different fuel consumption scenarios; 17.
Numerical modeling of pollutant particle diffusion in the atmospheric
boundary layer; 18. Investigating the dispersion inside idealized urban
street canyons using a k-epsilon turbulence model; 19. Coupling of an urban
dispersion model and an energy-budget model; 20. A mesoscale meteorological
model to predict windflow in the Valley of Mexico; 21. Some experiments
with a three-dimensional semi-lagrangian and semiimplicit cloud model; 22.
Large eddy modeling of stratocumulus clouds; Part III. Geophysical Data
Assimilation: 23. Computational aspects of Kalman filtering and smoothing
for atmospheric data assimilation; 24. Computational aspects of Goddard's
physical-space statistical analysis system (PSAS); 25. A study on the
influence of the Pacific and Atlantic SST on the northeast Brazil monthly
precipitation using singular value decomposition; 26. Numerically efficient
methods applicable to the eigenvalue problems arising in linear stability
analysis; 27. Use of canonical correlation analysis to predict the spatial
rainfall variability over northeast Brazil; 28. Identification of the ITCZ
axis by computational techniques; 29. Variational assimilation of acoustic
tomography data and point observations: some comparisons and suggestions to
perform error analysis; Part IV. Methods and Applications in Geophysics:
30. Do man-made obstacles produce dynamical p-wave localization in Mexico
City earthquakes?; 31. Domain decomposition methods for model
parallelization; 32. Parallelization using th-collocation; 32. A method for
simultaneous estimation of multiphase relative permeability and capillary
pressure functions.
General Circulation Models and Global Change: 1. A general circulation
model of the atmosphere-ocean system; 2. Coupled ocean-atmosphere modeling:
computing and scientific aspects; 3. The OCCAM global ocean model; 4.
Climatic asymmetries relative to the equator; 5. On the use of a general
circulation model to study regional climate; 6. A numerical study of the
circulation and sea surface temperature of the Gulf of Mexico; 7. Pacific
region CO2 climate change in a global coupled climate model; 8. Prospects
and problems in modeling the impacts of climate change in Latin America; 9.
PIXSAT, a digital image processing system in a CRAY-UNIX environment; 10.
Marine productivity seasonal forecast along the Ecuadorian coastal zone
based on physical models of ENSO; 11. Land cover classification by means of
satellite imagery and supercomputer resources; Part. II. Dispersion and
Mesoscale Modeling: 12. Environmental applications of mesoscale atmospheric
models; 13. An integrated air pollution modeling system: application to the
Los Angeles Basin; 14. An h-adapting finite element model for atmospheric
transport of pollutants; 15. The applicability of a mesoscale model in the
Valley of Mexico during extreme air pollution episodes; 16. Mexico city air
quality simulations under different fuel consumption scenarios; 17.
Numerical modeling of pollutant particle diffusion in the atmospheric
boundary layer; 18. Investigating the dispersion inside idealized urban
street canyons using a k-epsilon turbulence model; 19. Coupling of an urban
dispersion model and an energy-budget model; 20. A mesoscale meteorological
model to predict windflow in the Valley of Mexico; 21. Some experiments
with a three-dimensional semi-lagrangian and semiimplicit cloud model; 22.
Large eddy modeling of stratocumulus clouds; Part III. Geophysical Data
Assimilation: 23. Computational aspects of Kalman filtering and smoothing
for atmospheric data assimilation; 24. Computational aspects of Goddard's
physical-space statistical analysis system (PSAS); 25. A study on the
influence of the Pacific and Atlantic SST on the northeast Brazil monthly
precipitation using singular value decomposition; 26. Numerically efficient
methods applicable to the eigenvalue problems arising in linear stability
analysis; 27. Use of canonical correlation analysis to predict the spatial
rainfall variability over northeast Brazil; 28. Identification of the ITCZ
axis by computational techniques; 29. Variational assimilation of acoustic
tomography data and point observations: some comparisons and suggestions to
perform error analysis; Part IV. Methods and Applications in Geophysics:
30. Do man-made obstacles produce dynamical p-wave localization in Mexico
City earthquakes?; 31. Domain decomposition methods for model
parallelization; 32. Parallelization using th-collocation; 32. A method for
simultaneous estimation of multiphase relative permeability and capillary
pressure functions.
Participants; Scientific committee; Organizing committee; Preface; Part I.
General Circulation Models and Global Change: 1. A general circulation
model of the atmosphere-ocean system; 2. Coupled ocean-atmosphere modeling:
computing and scientific aspects; 3. The OCCAM global ocean model; 4.
Climatic asymmetries relative to the equator; 5. On the use of a general
circulation model to study regional climate; 6. A numerical study of the
circulation and sea surface temperature of the Gulf of Mexico; 7. Pacific
region CO2 climate change in a global coupled climate model; 8. Prospects
and problems in modeling the impacts of climate change in Latin America; 9.
PIXSAT, a digital image processing system in a CRAY-UNIX environment; 10.
Marine productivity seasonal forecast along the Ecuadorian coastal zone
based on physical models of ENSO; 11. Land cover classification by means of
satellite imagery and supercomputer resources; Part. II. Dispersion and
Mesoscale Modeling: 12. Environmental applications of mesoscale atmospheric
models; 13. An integrated air pollution modeling system: application to the
Los Angeles Basin; 14. An h-adapting finite element model for atmospheric
transport of pollutants; 15. The applicability of a mesoscale model in the
Valley of Mexico during extreme air pollution episodes; 16. Mexico city air
quality simulations under different fuel consumption scenarios; 17.
Numerical modeling of pollutant particle diffusion in the atmospheric
boundary layer; 18. Investigating the dispersion inside idealized urban
street canyons using a k-epsilon turbulence model; 19. Coupling of an urban
dispersion model and an energy-budget model; 20. A mesoscale meteorological
model to predict windflow in the Valley of Mexico; 21. Some experiments
with a three-dimensional semi-lagrangian and semiimplicit cloud model; 22.
Large eddy modeling of stratocumulus clouds; Part III. Geophysical Data
Assimilation: 23. Computational aspects of Kalman filtering and smoothing
for atmospheric data assimilation; 24. Computational aspects of Goddard's
physical-space statistical analysis system (PSAS); 25. A study on the
influence of the Pacific and Atlantic SST on the northeast Brazil monthly
precipitation using singular value decomposition; 26. Numerically efficient
methods applicable to the eigenvalue problems arising in linear stability
analysis; 27. Use of canonical correlation analysis to predict the spatial
rainfall variability over northeast Brazil; 28. Identification of the ITCZ
axis by computational techniques; 29. Variational assimilation of acoustic
tomography data and point observations: some comparisons and suggestions to
perform error analysis; Part IV. Methods and Applications in Geophysics:
30. Do man-made obstacles produce dynamical p-wave localization in Mexico
City earthquakes?; 31. Domain decomposition methods for model
parallelization; 32. Parallelization using th-collocation; 32. A method for
simultaneous estimation of multiphase relative permeability and capillary
pressure functions.
General Circulation Models and Global Change: 1. A general circulation
model of the atmosphere-ocean system; 2. Coupled ocean-atmosphere modeling:
computing and scientific aspects; 3. The OCCAM global ocean model; 4.
Climatic asymmetries relative to the equator; 5. On the use of a general
circulation model to study regional climate; 6. A numerical study of the
circulation and sea surface temperature of the Gulf of Mexico; 7. Pacific
region CO2 climate change in a global coupled climate model; 8. Prospects
and problems in modeling the impacts of climate change in Latin America; 9.
PIXSAT, a digital image processing system in a CRAY-UNIX environment; 10.
Marine productivity seasonal forecast along the Ecuadorian coastal zone
based on physical models of ENSO; 11. Land cover classification by means of
satellite imagery and supercomputer resources; Part. II. Dispersion and
Mesoscale Modeling: 12. Environmental applications of mesoscale atmospheric
models; 13. An integrated air pollution modeling system: application to the
Los Angeles Basin; 14. An h-adapting finite element model for atmospheric
transport of pollutants; 15. The applicability of a mesoscale model in the
Valley of Mexico during extreme air pollution episodes; 16. Mexico city air
quality simulations under different fuel consumption scenarios; 17.
Numerical modeling of pollutant particle diffusion in the atmospheric
boundary layer; 18. Investigating the dispersion inside idealized urban
street canyons using a k-epsilon turbulence model; 19. Coupling of an urban
dispersion model and an energy-budget model; 20. A mesoscale meteorological
model to predict windflow in the Valley of Mexico; 21. Some experiments
with a three-dimensional semi-lagrangian and semiimplicit cloud model; 22.
Large eddy modeling of stratocumulus clouds; Part III. Geophysical Data
Assimilation: 23. Computational aspects of Kalman filtering and smoothing
for atmospheric data assimilation; 24. Computational aspects of Goddard's
physical-space statistical analysis system (PSAS); 25. A study on the
influence of the Pacific and Atlantic SST on the northeast Brazil monthly
precipitation using singular value decomposition; 26. Numerically efficient
methods applicable to the eigenvalue problems arising in linear stability
analysis; 27. Use of canonical correlation analysis to predict the spatial
rainfall variability over northeast Brazil; 28. Identification of the ITCZ
axis by computational techniques; 29. Variational assimilation of acoustic
tomography data and point observations: some comparisons and suggestions to
perform error analysis; Part IV. Methods and Applications in Geophysics:
30. Do man-made obstacles produce dynamical p-wave localization in Mexico
City earthquakes?; 31. Domain decomposition methods for model
parallelization; 32. Parallelization using th-collocation; 32. A method for
simultaneous estimation of multiphase relative permeability and capillary
pressure functions.