[PDF] Top 20 Numerical Solution of n th Order Fuzzy Linear Differential Equations by Homotopy Perturbation Method

... both numerical solution as collocation type method and exact ...exact solution obtained by [5] does not satisfy the differential ...exact fuzzy solution for this ... See full document

... In this section, we apply HPM to solve three linear and nonlinear Volterra integral equa- tions. These examples are solved numerically in [28] by DTM. The main objective here is to solve these examples by using ... See full document

... non-linear differential equations (1-3) are solved by numerical ...for differential equation is used to solve this equation. Its numerical solution is compared with ... See full document

... of linear and nonlinear diffusion equation by a differential quadrature method” ...“ Homotopy perturbation method: A new nonlinear ... See full document

... the numerical solutions [11, ...approximate solution of the model by using the Homotopy Perturbation method (HPM) [14, ...Some method of finding numerical solutions is ... See full document

... the numerical solution of higher order boundary value problems using Homotopy perturbation method (HPM) and modified Adomian decomposition method ...The ... See full document

... decomposition method, the Homotopy perturbation method, and lyapunov’s method are three powerful methods which consider an approximate solution of linear and ... See full document

... of Fuzzy Differential Equations has been attracting a rapidly growing number of researchers in recent ...some numerical algorithms for fuzzy ordinary differential ... See full document

... include numerical solution of Fuzzy differential equation systems, ordinary differential equation, partial differential equation, fuzzy linear system and similar ... See full document

... integro- differential equations through their work in science applications like heat transformer, neutron diffusion, and biological species coexisting together with increasing and decreasing rates of ... See full document

... of linear first-order partial differential equations which is used as mathematical models in many physically significant fields and applied ...The homotopy perturbation ... See full document

... STWS technique was introduced by Rao et al. [10]. Balachandran and Murugesan applied STWS technique to solve first order system of IVPs[11, 12]. Murugesan and Paul Dhayabaran extended STWS technique for solving ... See full document

... The fuzzy differential equation and initial value problems were extensively studied by ...[16]. Numerical solution of fuzzy differential equations has been introduced by ... See full document

... solve differential equations. Solving some differential equations were difficult using the Laplace ...simpler solution than Laplace transform ...some differential ... See full document

... of fuzzy valued function f is expressed by [f] r (t) = [f − (t, r), f + (t, r)], where t ∈ [a, b], r ∈ [0, ...a fuzzy-valued function f : (a, b) → R F at t 0 is defined ... See full document

... in order to find the solution, the series components are to be calculated and the sum of the partial series of these components is considered as an approximation of the ...the method is designed in ... See full document

... fractional order is most commonly used in mathematics but its requirement of fractional order initial conditions which restrict, its uses in physical ...integer order initial ... See full document

... Integral-differential equations appear in many scientific applications, especially when we convert initial value problems or boundary value problems to integral ...integral-differential ... See full document

... find differential equations, which these equations are N-Order Linear differential equations and solutions relatively complex, therefore researchers have forced to ... See full document

... [8] Yanti. R and Hajjah. A. 2017. Applied of Third Order Runge Kutta Method Based on Combination of Means to Solve Fuzzy Differential Equations. Proceeding of International Conference ... See full document