Convergence of a numerical method for solving a hypersingular integral equation on a segment with the use of piecewise linear approximations on a nonuniform grid

A numerical scheme has been constructed for solving a linear hypersingular integral equation on a segment with the integral treated in the sense of the Hadamard principle value by the method of piecewise linear approximations on an arbitrary nonuniform grid, with the hypersingular integral being regularized by approximating the unknown function with a constant in a small neighborhood of the singular point. The radius of the neighborhood can be chosen independently of the grid pitch, the latter understood as the maximum distance between the nodes. The uniform convergence of the obtained numerical solutions to the exact solution is proved as the grid pitch and the radius of the neighborhood in which the regularization is performed simultaneously tend to zero.