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Continuation method (to a parametrized family, for non-linear operators)

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A method for approximately solving non-linear operator equations. It consists of generalizing the equation to be solved, , to the form , by introducing a parameter that takes values in a finite interval, , such that the initial equation is obtained for : , while the equation can either easily be solved, or a solution of it is already known (cf. [1][3]).

The generalized equation is solved sequentially for individual values of : . For it is solved by means of some iteration method (Newton, simple iteration, variation of parameter, [4], etc.), starting with the solution obtained by solving for . Applying at each step in , e.g., Newton iterations, leads to the formulas

If the difference is sufficiently small, then the value of may turn out to be a sufficiently good initial approximation, ensuring convergence, in order to obtain the solution for (cf. [1], [3], [5]).

In practice, the initial problem often naturally depends on some parameter, which can then be taken as .

The continuation method is used in the solution of systems of non-linear algebraic and transcendental equations (cf. [1], [2]), as well as for more general non-linear functional equations in Banach spaces (cf. [5][7]).

The continuation method is sometimes called the direct method of variation of parameter (cf. [2], [6]), as well as the combined method of direct and iterative variation of parameter. In these methods the construction of solutions of generalized equations is reduced, by differentiation with respect to the parameter, to the solution of a differential problem with initial conditions (a Cauchy problem) by methods of numerical integration of ordinary differential equations. Applying the simplest Euler method in the direct method of variation of parameter to the Cauchy problem

the approximate values , , of the solution of can be determined from the following identities:

The element is the required approximate solution of the initial equation . A refinement of all or some values can be obtained by the iteration method of variation of parameter [4] (or Newton's method). The generalized equation is here usually generated in the form

on a finite interval , or, replacing in it by , on the infinite interval .

The method of variation of parameter has been applied to large classes of problems both for constructing solutions, as well as for proving their existence (cf. e.g. [3], [4], [6], [7]).

References

[1] E. Lahaye, "Sur la résolution des systèmes d'equations transcendantes" Acad. Roy. Belgique Bull. Cl. Sci. Sér. 5 , 34 (1948) pp. 809–827
[2] D.F. Davidenko, "On the approximate solution of systems of non-linear equations" Ukrain. Mat. Zh. , 5 : 2 (1953) pp. 196–206 (In Russian)
[3] J.M. Ortega, W.C. Rheinboldt, "Iterative solution of non-linear equations in several variables" , Acad. Press (1970)
[4] D.F. Davidenko, "An iterative method of parameter variation for inverting linear operators" USSR Comput. Math. Math. Phys. , 15 (1975) pp. 27–43 Zh. Vychisl. Mat. i. Mat. Fiz. , 15 : 1 (1975) pp. 30–47
[5] A.M. Dement'eva, "On difference methods of constructing an implicit function" Soviet Math. Doklady , 12 (1971) pp. 1708–1711 Dokl. Akad. Nauk SSSR , 201 : 4 (1971) pp. 774–777
[6] D.F. Davidenko, "On applying the method of variation of parameters to the theory of non-linear functional equations" Ukrain. Mat. Zh. , 7 : 1 (1955) pp. 18–28 (In Russian)
[7] N.A. Shidlovskaya, "Application of the method of differentiation with respect to a parameter to the solution of non-linear equations in Banach spaces" Uchen. Zap. Leningrad. Gos. Univ. , 271 : 33 (1958) pp. 3–17 (In Russian)


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How to Cite This Entry:
Continuation method (to a parametrized family, for non-linear operators). D.F. Davidenko (originator), Encyclopedia of Mathematics. URL: http://encyclopediaofmath.org/index.php?title=Continuation_method_(to_a_parametrized_family,_for_non-linear_operators)&oldid=13519
This text originally appeared in Encyclopedia of Mathematics - ISBN 1402006098