Simulation results show that the approximation method is efficient and the derived sampling inspection plans are reasonable.
Successive approximation method is adopted in the design, manufacture, and test of freeform optics.
Secondly, in conditions of non-steady flow, azinuthal velocity and shear stress distribution were deduced according to function approximation method.
In the algorithm test, Runge-Kutta method and the Picard approximation method were used to make the solution for the matrix equation of the profile calculation, and I evaluated the data obtained.
In this paper, an optimal mathematical model solving method, the successive approximation method, of the nature of nonlinear integral programming problem is suggested.
Giving the number of segment points, a polygonal approximation method is presented. Then a fast contour interpolating method is introduced.
Successive approximation method is directed to solve the peak modulation problems.
The method converges faster than conventional successive approximation method (SAM) and can be applied to high conductivity contrast formation.
Firstly, by use of the successive approximation method and a series of classical estimates, the local existence and uniqueness of weak solution are proved.
An approximation method on experimental results is presented, which converts experiment value into full scale value by utilizing similarity theory of fluid mechanics.