Dynamical Systems Modeling
Mostrando 13-16 de 16 artigos, teses e dissertações.
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13. Modelagem, simulação e otimização de sistemas de evaporação
Evaporation systems are separation processes widely used at chemical and chemical processing industries. The large number of possibilities for effects configuration (frontal, reverse or mixed) and of inclusion of accessories (mechanical conpressors, thermocompressors, heat exchangers, flash coolers and bleed streams) turn its modeling and simulation into a h
Publicado em: 1999
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14. The occurrence of Jovian planets and the habitability of planetary systems
Planets of mass comparable to or larger than Jupiter's have been detected around over 50 stars, and for one such object a definitive test of its nature as a gas giant has been accomplished with data from an observed planetary transit. By virtue of their strong gravitational pull, giant planets define the dynamical and collisional environment within whic
The National Academy of Sciences.
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15. What might we learn from climate forecasts?
Most climate models are large dynamical systems involving a million (or more) variables on big computers. Given that they are nonlinear and not perfect, what can we expect to learn from them about the earth's climate? How can we determine which aspects of their output might be useful and which are noise? And how should we distribute resources between making
National Academy of Sciences.
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16. An embedded network approach for scale-up of fluctuation-driven systems with preservation of spike information
To address computational “scale-up” issues in modeling large regions of the cortex, many coarse-graining procedures have been invoked to obtain effective descriptions of neuronal network dynamics. However, because of local averaging in space and time, these methods do not contain detailed spike information and, thus, cannot be used to investigate, e.g.,
National Academy of Sciences.