Numerical solutions for Hankel transform and application;

Analytical solutions were obtained in a radial flow domain using generalized Hankel transform.

The analytical solutions of temperature increment,stress,displacement and pore pressure are derived with the forward and the inverse Hankel transform.

Therefore, after Biot putting forward the general wave equations in isotropic saturated porous medium, there are a series of work on dynamic response in such medium by the FEM, BEM(in frequency space or Laplace space), as well as analytical method(completed by Fourier expanding and Hankel integral transforma.

Then, by means of the method of Laplace integral transform, Fourier expanding and Hankel integral transform, the governing equations is solved in the Laplace-Hankel transforming region.

The actual solutions can be acquired by inverting the Laplace-Hankel transform.

Then the general solutions of stress and displacement for non-axisymmetric problems are obtained by Hankel transformation.

For overcoming the complexity of the computation of Fresnel diffraction through a circular aperture and the numerous samples of light wave, the Hankel transformation algorithm,the conversion of 2-D to 1-D and the processing of the spherical wave factor are applied.

Based upon the basic equations and Hankel transforms the transferring matrix method of isotropic elastic layer under axisymmetric load is obtained． By using the transferring matrix axisymmetric multilayered isotropic elastic systems can be solved

The research in Hankel matrices is one of the primary topics in combinatorial matrices, including the study of Hankel transforms and decomposition of Hankel matrices.