6533b7d0fe1ef96bd125aec5

RESEARCH PRODUCT

Spatially localized solutions of the Hammerstein equation with sigmoid type of nonlinearity

Vadim KostrykinAlexander V. SobolevArcady PonosovAnna Oleynik

subject

Heaviside step functionIterative methodApplied Mathematics010102 general mathematicsMathematical analysisSigmoid functionFixed point01 natural sciences010305 fluids & plasmasHamiltonian systemFunctional Analysis (math.FA)Mathematics - Functional AnalysisNonlinear systemsymbols.namesakeMathematics - Analysis of PDEs0103 physical sciencessymbolsFOS: MathematicsFitzHugh–Nagumo modelHomoclinic orbit0101 mathematicsAnalysisMathematicsAnalysis of PDEs (math.AP)

description

Abstract We study the existence of fixed points to a parameterized Hammerstein operator H β , β ∈ ( 0 , ∞ ] , with sigmoid type of nonlinearity. The parameter β ∞ indicates the steepness of the slope of a nonlinear smooth sigmoid function and the limit case β = ∞ corresponds to a discontinuous unit step function. We prove that spatially localized solutions to the fixed point problem for large β exist and can be approximated by the fixed points of H ∞ . These results are of a high importance in biological applications where one often approximates the smooth sigmoid by discontinuous unit step function. Moreover, in order to achieve even better approximation than a solution of the limit problem, we employ the iterative method that has several advantages compared to other existing methods. For example, this method can be used to construct non-isolated homoclinic orbit of a Hamiltonian system of equations. We illustrate the results and advantages of the numerical method for stationary versions of the FitzHugh–Nagumo reaction–diffusion equation and a neural field model.

yearjournalcountryeditionlanguage
2016-11-01
http://arxiv.org/abs/1511.06364