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The Global ETD Search service is a free service for researchers
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Showing 1 to 8 of 8 (0.15 seconds)Spelling suggestions: "subject:"geometric singular perturbation"" "subject:"eometric singular perturbation""
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Nonlinear oscillation and control in the BZ chemical reaction.Li, Yongfeng 25 August 2008 (has links)
In this thesis, a reversible Lotka-Volterra model was proposed to study the nonlinear oscillation of the Belousov-Zhabotinsky(BZ) reaction in a closed isothermal chemical system. The reaction zone can be divided into two zones, oscillation zone and transition zone, where the oscillation time and the transition time and the number of the complete oscillations are estimated. By applying the geometric singular perturbation method, it was proved that there exist an oscillation axis in the oscillation zone, a strongly stable two-dimensional invariant manifold in transition zone, on which there is also a one-dimensional stable invariant
manifold, which is the part of the central axis. There is no oscillation in the vicinity of the equilibrium, as indicated by Onsager's reciprocal symmetry relation. Furthermore, the damped oscillation is studied in terms of the action-action-angle variables. In the end, the model reference control technique is employed to control the oscillation amplitude in the
BZ reaction.
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| 2 |
A Geometric Singular Perturbation Theory Approach to Viscous Singular Shocks Profiles for Systems of Conservation LawsHsu, Ting-Hao 14 October 2015 (has links)
No description available.
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| 3 |
EXISTENCE OF SLOW WAVES IN MUTUALLY INHIBITORY THALAMIC NEURONAL NETWORKSJalics, Jozsi Z. January 2002 (has links)
No description available.
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| 4 |
Analysis and implementation of robust numerical methods to solve mathematical models of HIV and Malaria co-infectionElsheikh, Sara Mohamed Ahmed Suleiman January 2011 (has links)
There is a growing interest in the dynamics of the co-infection of these two diseases. In this thesis, firstly we focus on studying the effect of a distributed delay representing the incubation period for the malaria parasite in the mosquito vector to possibly reduce the initial transmission and prevalence of malaria. This model can be regarded as a generalization of SEI models (with a class for the latently infected mosquitoes) and SI models with a discrete delay for the incubation period in mosquitoes. We study the possibility of occurrence of backward bifurcation. We then extend these ideas to study a full model of HIV and malaria co-infection. To get further inside into the dynamics of the model, we use the geometric singular perturbation theory to couple the fast and slow models from the full model. Finally, since the governing models are very complex, they cannot be solved analytically and hence we develop and analyze a special class of numerical methods to solve them.
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Analysis and implementation of robust numerical methods to solve mathematical models of HIV and Malaria co-infectionElsheikh, Sara Mohamed Ahmed Suleiman January 2011 (has links)
There is a growing interest in the dynamics of the co-infection of these two diseases. In this thesis, firstly we focus on studying the effect of a distributed delay representing the incubation period for the malaria parasite in the mosquito vector to possibly reduce the initial transmission and prevalence of malaria. This model can be regarded as a generalization of SEI models (with a class for the latently infected mosquitoes) and SI models with a discrete delay for the incubation period in mosquitoes. We study the possibility of occurrence of backward bifurcation. We then extend these ideas to study a full model of HIV and malaria co-infection. To get further inside into the dynamics of the model, we use the geometric singular perturbation theory to couple the fast and slow models from the full model. Finally, since the governing models are very complex, they cannot be solved analytically and hence we develop and analyze a special class of numerical methods to solve them.
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| 6 |
Analysis and implementation of robust numerical methods to solve mathematical models of HIV and Malaria co-infectionElsheikh, Sara Mohamed Ahmed Suleiman January 2011 (has links)
Philosophiae Doctor - PhD / There is a growing interest in the dynamics of the co-infection of these two diseases. In this thesis, firstly we focus on studying the effect of a distributed delay representing the incubation period for the malaria parasite in the mosquito vector to possibly reduce the initial transmission and prevalence of malaria. This model can be regarded as a generalization of SEI models (with a class for the latently infected mosquitoes) and SI models with a discrete delay for the incubation period in mosquitoes. We study the possibility of occurrence of backward bifurcation. We then extend these ideas to study a full model of HIV and malaria co-infection. To get further inside into the dynamics of the model, we use the geometric singular perturbation theory to couple the fast and slow models from the full model. Finally, since the governing models are very complex, they cannot be solved analytically and hence we develop and analyze a special class of numerical methods to solve them. / South Africa
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Understanding a Population Model for Mussel-Algae InteractionVorpe, Katherine January 2020 (has links)
No description available.
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| 8 |
The Jormungand Climate ModelRackauckas, Christopher V. 11 July 2013 (has links)
No description available.
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