Numerical Solution of Second-Orders Fuzzy Linear Differential Equation

In this paper, the numerical solution of the boundary value problem that is two-order fuzzy linear differential equations is discussed. Based on the generalized Hukuhara difference, the fuzzy differential equation is converted into a fuzzy difference equation by means of decentralization. The numerical solution of the boundary value problem is obtained by calculating the fuzzy differential equation. Finally, an example is given to verify the effectiveness of the proposed method.


Introduction
Many engineering system problems are too complex to be directly converted into system equations to solve, and they often involve parameter uncertainties, which often appear as the fuzzy numbers. Therefore, when solving such problems, it is often necessary to model it to a fuzzy differential equation to consider, which always makes the solution of fuzzy system equations very important.
Prior to discussing fuzzy differential equations and their associated numerical algorithms, it is necessary to present an appropriate and brief introduction to the derivative of the fuzzy-valued function. The concept of a fuzzy derivative was first introduced by Zadeh [1], followed up by Dubois and Prade [2] who used the extension principle in their methods. Other fuzzy derivative concepts have been proposed by Puri and Ralescu [3] as an extension of the Hukuhara derivative of multivalued functions.
In recent years, many scholars have made profound research on two-order differential equations given the fuzzy boundary conditions. Wu, Q. [4] discussed the uncertainty of the two-point boundary value of the two-order differential equation. Using the fuzzy simulation principle and different methods, the numerical solution of the boundary value problem is obtained. Regan, O. et al. [5] proved a prior result on the solvability of fuzzy boundary value problems based on the generalized Schauder theorem. Wu, C.X. et al. [6] proved that the existence of analytical solutions of fuzzy boundary value problems completely depends on the definition, structure and properties of fuzzy numbers. Guo et al. [7] [8] studied the approximate solutions of two-order linear differential equations with several fuzzy boundary conditions. In this paper, we investigate the boundary value problem of two-order fuzzy linear differential equations.   . We say that f is Hukuhara differential at 0 t , if there exists an element

Preliminaries
such that for all 0 h > sufficiently small, and the limits: Definition 2.6 [11]: The second-order fuzzy differential equation: is called the two-order fuzzy boundary value problems, where In this paper, we mainly study the boundary value problem of two-order fuzzy linear differential equations, under the condition of parameter numbering.
, , are fuzzy numbers, ( ) ( ) , p t q t are coefficient function. And parameter form is: y t r p t y t r q t y t r g t r y a r r y b r r y t r p t y t r q t y t r g t r y a r r y b r r

The Establishment of the Difference Method
For the boundary value problem of two-order fuzzy linear differential equations, we are going to discuss the establishment of the difference method and study its solvability in this section.
First, we use the following first-order difference quotient to approximate the first derivative ( ) f t ′ , which is: Then the second derivative can be approximated by the first-order difference quotient of the first-order difference quotient, that is, Finishing the following the ( ) ( ) where: Finishing the following the ( ) ( ) where: , , Proof First, we can eliminate the first-order difference in the fuzzy difference equation by appropriate transformation of the independent variables.
According to the results of the Negoita-Ralescu Characterization Theorem [12], Just prove that the corresponding homogeneous linear equations as:

Numerical Example
Example 4.1 Consider the boundary value problem of fuzzy differential equations as follows: Then, the solution of the boundary value problem of fuzzy differential equations is:

Conclusion
In this paper, an approximate method based on a positive basis for the undetermined coefficients second-orders fuzzy linear boundary value problems was discussed. A class of boundary condition and the general case were considered.
According to the sign of coefficient functions of the fuzzy linear differential equation, the corresponding function systems of linear equations were composed.
And then, fuzzy approximate solutions were obtained by solving a crisp function extended system of linear equations. For next investigation, we can consider the other class of boundary conditions by the same method.