In this paper the geometric integration methods for solving generalized Hamiltonian systems and furthermore for solving general nonlinear dynamic system are investigated.

(1)For Schur s inequality on convex curves of plane, we give a new analytic proof for it, which maybe is simpler or clearer than known ones; we make further discussions by means of integral geometry and get more results.

We introduce the fundamental method of integral geometry,plane isoperimetric inequality and Hadwiger s containment problem.

FOrpoint-sources and the correspondent responses measured on the earth s surface, we get anintegral equation satisfied by the 2-D wave velocity perturbation, which is a problem ofintegral geometry.

An improved coordinate transform is proposed and then the differential geometry approach can be directly used to obtain the nonlinear control strategy of SSSC.

In order to eliminate the non-linearity of the model, the differential geometry method based on coordinate transformation and state feedback was introduced.