Abstract

The paper is focused on solvability of an inverse boundary problem with an unknown coefficient which depends on time for a second-order parabolic equation with non-classical boundary conditions. The idea of the problem is that together with the solution it is required to determine the unknown coefficient. The problem is considered in the rectangular area. The paper introduces a classical solution of the set problem. At first, an auxiliary inverse boundary problem is examined and the equivalence (in some sense) of the original problem is proved. First, we apply a method of variable separation to analyze the auxiliary inverse boundary problem. Then, we examine a spectral problem for an ordinary second-order differential equation with integral conditions. Having used a formal scheme of the method of variable separation, the solution of a direct boundary problem (in case of specified unknown function) resolves itself into solution of Cauchy problem. After that the solution is limited to the solution of a countable system of integro-differential equations in Fourier coefficients. In its turn, the last system regarding unknown Fourier coefficients is recorded in the form of an integro-differential equation in the desired solution. Using relevant additional conditions of the auxiliary inverse boundary problem, we obtain a system of two nonlinear integral equations for defining unknown functions. Thus, the solution of the auxiliary inverse boundary problem comes down to the system of two nonlinear integro-differential equations in unknown functions. The specific Banach space is designed. Then, in the sphere made of the Banach space we with the help of contracted mapping prove the solvability of the nonlinear integro-differential equations set, which is a unique solution of the additional inverse boundary problem. Using the equivalence of problems, it is concluded about existence and uniqueness of a classical solution of the original problem.

Highlights

  • Ȼɜɟɞɟɧɢɟ Ɇɧɨɝɢɟ ɡɚɞɚɱɢ ɦɚɬɟɦɚɬɢɱɟɫɤɨɣ ɮɢɡɢɤɢ, ɦɟɯɚɧɢɤɢ ɫɩɥɨɲɧɵɯ ɫɪɟɞ ɹɜɥɹɸɬɫɹ ɤɪɚɟɜɵɦɢ ɡɚɞɚɱɚɦɢ, ɫɜɨɞɹɳɢɦɢɫɹ ɤ ɢɧɬɟɝɪɢɪɨɜɚɧɢɸ ɞɢɮɮɟɪɟɧɰɢɚɥɶɧɨɝɨ ɭɪɚɜɧɟɧɢɹ ɢɥɢ ɫɢɫɬɟɦɵ ɭɪɚɜɧɟɧɢɣ ɜ ɱɚɫɬɧɵɯ ɩɪɨɢɡɜɨɞɧɵɯ ɩɪɢ ɡɚɞɚɧɧɵɯ ɤɪɚɟɜɵɯ ɢ ɧɚɱɚɥɶɧɵɯ ɭɫɥɨɜɢɹɯ

  • In the sphere made of the Banach space we with the help of contracted mapping prove the solvability of the nonlinear integro-differential equations set, which is a unique solution of the additional inverse boundary problem

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Summary

Introduction

Ȼɜɟɞɟɧɢɟ Ɇɧɨɝɢɟ ɡɚɞɚɱɢ ɦɚɬɟɦɚɬɢɱɟɫɤɨɣ ɮɢɡɢɤɢ, ɦɟɯɚɧɢɤɢ ɫɩɥɨɲɧɵɯ ɫɪɟɞ ɹɜɥɹɸɬɫɹ ɤɪɚɟɜɵɦɢ ɡɚɞɚɱɚɦɢ, ɫɜɨɞɹɳɢɦɢɫɹ ɤ ɢɧɬɟɝɪɢɪɨɜɚɧɢɸ ɞɢɮɮɟɪɟɧɰɢɚɥɶɧɨɝɨ ɭɪɚɜɧɟɧɢɹ ɢɥɢ ɫɢɫɬɟɦɵ ɭɪɚɜɧɟɧɢɣ ɜ ɱɚɫɬɧɵɯ ɩɪɨɢɡɜɨɞɧɵɯ ɩɪɢ ɡɚɞɚɧɧɵɯ ɤɪɚɟɜɵɯ ɢ ɧɚɱɚɥɶɧɵɯ ɭɫɥɨɜɢɹɯ. Ⱥɡɟɪɛɚɣɞɠɚɧ E-mail: yashar_aze@mail.ru ɂɫɫɥɟɞɭɟɬɫɹ ɪɚɡɪɟɲɢɦɨɫɬɶ ɨɛɪɚɬɧɨɣ ɤɪɚɟɜɨɣ ɡɚɞɚɱɢ ɫ ɧɟɢɡɜɟɫɬɧɵɦ ɤɨɷɮɮɢɰɢɟɧɬɨɦ, ɡɚɜɢɫɹɳɢɦ ɨɬ ɜɪɟɦɟɧɢ, ɞɥɹ ɩɚɪɚɛɨɥɢɱɟɫɤɨɝɨ ɭɪɚɜɧɟɧɢɹ ɜɬɨɪɨɝɨ ɩɨɪɹɞɤɚ ɫ ɧɟɤɥɚɫɫɢɱɟɫɤɢɦɢ ɤɪɚɟɜɵɦɢ ɭɫɥɨɜɢɹɦɢ. ɢɫɩɨɥɶɡɭɹ ɫɨɨɬɜɟɬɫɬɜɭɸɳɢɟ ɞɨɩɨɥɧɢɬɟɥɶɧɵɟ ɭɫɥɨɜɢɹ ɨɛɪɚɬɧɨɣ ɜɫɩɨɦɨɝɚɬɟɥɶɧɨɣ ɤɪɚɟɜɨɣ ɡɚɞɚɱɢ, ɞɥɹ ɨɩɪɟɞɟɥɟɧɢɹ ɧɟɢɡɜɟɫɬɧɵɯ ɮɭɧɤɰɢɣ ɩɨɥɭɱɚɟɦ ɫɢɫɬɟɦɭ ɞɜɭɯ ɧɟɥɢɧɟɣɧɵɯ ɢɧɬɟɝɪɚɥɶɧɵɯ ɭɪɚɜɧɟɧɢɣ. Ɪɟɲɟɧɢɟ ɜɫɩɨɦɨɝɚɬɟɥɶɧɨɣ ɨɛɪɚɬɧɨɣ ɤɪɚɟɜɨɣ ɡɚɞɚɱɢ ɫɜɨɞɢɬɫɹ ɤ ɫɢɫɬɟɦɟ ɞɜɭɯ ɧɟɥɢɧɟɣɧɵɯ ɢɧɬɟɝɪɨɞɢɮɮɟɪɟɧɰɢɚɥɶɧɵɯ ɭɪɚɜɧɟɧɢɣ ɨɬɧɨɫɢɬɟɥɶɧɨ ɧɟɢɡɜɟɫɬɧɵɯ ɮɭɧɤɰɢɣ.

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