Analytical Error Estimation of Conformal Mappings Using Complex Bessel Functions under Perturbed Boundaries
Abstract
This paper studies the theoretical construction and analytic error estimation of complex Bessel function-based conformal mappings in regions with randomly perturbed boundaries. First, we construct a conformal mapping applicable to such boundary conditions and prove the existence and uniqueness of the mapping. On this basis, an analytical error estimation method is proposed to quantify the effect of the magnitude of the boundary perturbation on the accuracy of the mapping. By deriving the error formula, we show the stability of the complex Bessel function under perturbed boundary conditions and prove the asymptotic convergence of the mapping error under small perturbation conditions. This study provides new theoretical support for conformal mapping under complex boundary conditions and reveals the potential of complex Bessel functions in dealing with stochastic boundary problems.
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