-
![[Zoom In]](/images/spacer.gif;jsessionid=BBABF83FE197A134A89FEE518CB98ECA)
-
-
Page of 0
|
The Existence and Stability of Classical Solutions in the Neural Fields Equations, M.Sc. Thesis Sharif University of Technology ; Fotouhi Firouzabadi, Morteza (Supervisor)
Abstract
In this thesis, first, the modeling method of neural fields is precisely presented. Then, Existence and Stability of different solutions of one dimensional neural fields like Standing Pulses, Traveling Waves and ... are investigated in three different models of neural fields. In order for proving Existence and Stability of the solutions the mathematical tools like Fourier transform and Evans function are applied. All the models which analysed in this thesis have the following Integro-Differential Equation form:
τ ∂u(x, t) ∂t = −u(x, t) + ∫ +∞ −∞ w(x, y)f[u(y, t)]dy + I(x, t) + s(x, t) and also in some models the parameters might be changed Cataloging briefThe Existence and Stability of Classical Solutions in the Neural Fields Equations, M.Sc. Thesis Sharif University of Technology ; Fotouhi Firouzabadi, Morteza (Supervisor)
Abstract
In this thesis, first, the modeling method of neural fields is precisely presented. Then, Existence and Stability of different solutions of one dimensional neural fields like Standing Pulses, Traveling Waves and ... are investigated in three different models of neural fields. In order for proving Existence and Stability of the solutions the mathematical tools like Fourier transform and Evans function are applied. All the models which analysed in this thesis have the following Integro-Differential Equation form:
τ ∂u(x, t) ∂t = −u(x, t) + ∫ +∞ −∞ w(x, y)f[u(y, t)]dy + I(x, t) + s(x, t) and also in some models the parameters might be changed Find in contentBookmark |
|
|
