Abstract
We study the Electrical Impedance Equation within a special class of domains, whose boundaries posses non-smooth points. The forward Dirichlet boundary value problem is solved bias a novel numerical method, based upon the Pseudoanalytic Function Theory, that does not require additional regularization techniques to fulfill the boundary condition at the non-smooth points.
Every author equally contributed to the research work.
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Acknowledgments
The authors would like to acknowledge the support of CONACyT projects 106722 and 81599; A. G. Bucio Ramirez thanks to UPIITA-IPN and CONACyT; M.P. Ramirez Tachiquin acknowledges the support of HILMA S.A. de C.V.; C. M. A. Robles-Gonzalez and V. D. Sanchez Nava would like to thank La Salle University for the research stay and to CONACyT.
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Robles Gonzalez, C.M.A., Bucio Ramirez, A.G., Ramirez Tachiquin, M.P., Sanchez Nava, V.D. (2014). On the Numerical Solutions of Boundary Value Problems in the Plane for the Electrical Impedance Equation: A Pseudoanalytic Approach for Non-Smooth Domains. In: Kim, H., Ao, SI., Amouzegar, M., Rieger, B. (eds) IAENG Transactions on Engineering Technologies. Lecture Notes in Electrical Engineering, vol 247. Springer, Dordrecht. https://doi.org/10.1007/978-94-007-6818-5_31
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DOI: https://doi.org/10.1007/978-94-007-6818-5_31
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