Method for constructing analytical solutions to the Dym initial value problem

We obtain approximate solutions to the Dym equation, and associated initial value problem, for general initial data by way of an optimal homotopy analysis method. By varying the auxiliary linear operator, thereby varying the time evolution of approximate solutions, we perform two independent homotop...

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Published inApplied mathematics and computation Vol. 226; pp. 67 - 82
Main Authors Mallory, Kristina, Van Gorder, Robert A.
Format Journal Article
LanguageEnglish
Published Elsevier Inc 01.01.2014
Subjects
Analytical solution
Approximation
Auxiliary linear operator
Convergence
Dym equation
Evolution
Initial value problems
Linear operators
Mathematical analysis
Mathematical models
Nonlinear PDE
Optimal control of error
Optimal homotopy analysis method
Optimization
Dym equation
Auxiliary linear operator
Nonlinear PDE
Optimal homotopy analysis method
Analytical solution
Optimal control of error
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Abstract We obtain approximate solutions to the Dym equation, and associated initial value problem, for general initial data by way of an optimal homotopy analysis method. By varying the auxiliary linear operator, thereby varying the time evolution of approximate solutions, we perform two independent homotopy analyses for the Dym equation. We obtain two separate approximate solutions, each dependent on the respective convergence control parameter. A method to control the residual error of each of these approximate solutions, through the use of the embedded convergence control parameter, is discussed. Treating each approximate solution individually, we select the value of the convergence control parameter which minimizes a sum of squared residual error. That is, we use the so-called optimal homotopy analysis method in order to pick the value of the convergence control parameter that leads to the most rapid convergence of the approximate solutions. Performing this error analysis with each approximate solution, we directly compare the deviation of each type of solution to determine which time evolution linear operator in the homotopy provides more accurate approximations. We illustrate such a comparison in a few explicit examples of initial data, to determine which solution offers a better representation of the way solutions to the Dym equation evolve in time. With this, we are able to determine the effect of a choice of linear operator on how accurately resulting solutions can approximate true solutions to the Dym equation. Since we have optimally selected the convergence control parameter in each case, our solutions are optimal in the sense that they minimize a global measure of the residual error over the domain (subject to the choice of auxiliary linear operator used).
AbstractList We obtain approximate solutions to the Dym equation, and associated initial value problem, for general initial data by way of an optimal homotopy analysis method. By varying the auxiliary linear operator, thereby varying the time evolution of approximate solutions, we perform two independent homotopy analyses for the Dym equation. We obtain two separate approximate solutions, each dependent on the respective convergence control parameter. A method to control the residual error of each of these approximate solutions, through the use of the embedded convergence control parameter, is discussed. Treating each approximate solution individually, we select the value of the convergence control parameter which minimizes a sum of squared residual error. That is, we use the so-called optimal homotopy analysis method in order to pick the value of the convergence control parameter that leads to the most rapid convergence of the approximate solutions. Performing this error analysis with each approximate solution, we directly compare the deviation of each type of solution to determine which time evolution linear operator in the homotopy provides more accurate approximations. We illustrate such a comparison in a few explicit examples of initial data, to determine which solution offers a better representation of the way solutions to the Dym equation evolve in time. With this, we are able to determine the effect of a choice of linear operator on how accurately resulting solutions can approximate true solutions to the Dym equation. Since we have optimally selected the convergence control parameter in each case, our solutions are optimal in the sense that they minimize a global measure of the residual error over the domain (subject to the choice of auxiliary linear operator used).
Author Mallory, Kristina
Van Gorder, Robert A.
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Keywords Dym equation
Auxiliary linear operator
Nonlinear PDE
Optimal homotopy analysis method
Analytical solution
Optimal control of error
Language English
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SSID ssj0007614
Score 2.1016881
Snippet We obtain approximate solutions to the Dym equation, and associated initial value problem, for general initial data by way of an optimal homotopy analysis...
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SubjectTerms Analytical solution
Approximation
Auxiliary linear operator
Convergence
Dym equation
Evolution
Initial value problems
Linear operators
Mathematical analysis
Mathematical models
Nonlinear PDE
Optimal control of error
Optimal homotopy analysis method
Optimization
Title Method for constructing analytical solutions to the Dym initial value problem
URI https://dx.doi.org/10.1016/j.amc.2013.10.019
https://www.proquest.com/docview/1513445790
Volume 226
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