Sequential method conformal mappings
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Abstract
The well-known, very important Schwarz–Christoffel integral does not yet completely solve the problem of mapping a half-plane onto a predetermined polygon. This integral includes parameters (inverse images of the polygon), the relationship of which with the lengths of the edges of the polygon is not known in advance. The main difficulty in using the Schwarz–Christoffel formula lies in determining these parameters. If this difficulty can be overcome in some effective way, then the Schwarz–Christoffel formula expands the range of conformally mapped regions so much that it can be considered “universal”, given that the curvilinear boundary of the mapped region can be approximated by a broken line. Thus, together with the Schwarz–Christoffel formula, a new direction in the theory of functions arises - numerical methods of conformal mapping. However, these approximate numerical methods were developed independently of the Schwarz–Christoffel formula.
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Jambaa S, Kasatkina TV, Bubenchikov AM. On the determination of constants in the Schwarz-Christoffel integral by PP Kufarev's method. Tomsk State University Journal of Mathematics and Mechanics. 2016; 5(43):21-27.
Radygin VM, Polansky IS, Modified method of successive conformal mappings of polygonal domains, Vestnik TSU, Mathematics and Mechanics. 2016: 1(39):25-35.
Kolesnikov IA. On the problem of determining parameters in the Schwarz equation. Problemy Analiza – Issues of Analysis. 2018; 7(25).
Gutlyanskii VY. On conformal mapping of polygonal regions. VY Gutlyanskii, AO Zaidan. Ukrainian Mathematical Journal. 1993; 45:11; 1669-1680.
Banjai L. A multipole method for Schwarz-Christoffel mapping of polygons with thousands of sides. L Banjai, LN Trefethen. SIAM Journal on Scientific Computing. 2003; 25:3; 1042-1065.
Jambaa S, Kasatkina TV, Bubenchikov AM. Application of the method of PP Kufarev to the solution of the problem of groundwater movement under hydraulic engineering structures. Vestnik TSU. Mathematics and Mechanics. UDC. Tomsk, Russia. 2017; 517:54; 47:15-21.
Filchakov PF. Approximate methods of conformal mappings. Filchakov PF. Kyiv: Nauka Dumka. 1964; 530.
Filchakov PF. Numerical and graphic methods of applied mathematics. Filchakov PF. Kyiv: Nauka Dumka. 1970; 745.