Maryam Arab Ameri
Department of Mathematics, University of Sistan and Baluchestan, Zahedan, Iran.
[ 1 ] - Moving Mesh Non-standard Finite Difference Method for Non-linear Heat Transfer in a Thin Finite Rod
In this paper, a moving mesh technique and a non-standard finite difference method are combined, and a moving mesh non-standard finite difference (MMNSFD) method is developed to solve an initial boundary value problem involving a quartic nonlinearity that arises in heat transfer with thermal radiation. In this method, the moving spatial grid is obtained by a simple geometric adaptive algorithm ...
[ 2 ] - حل معادلات ناویر- استوکس به کمک روشهای بدون شبکه توابع پایه شعاعی
معادلات ناویر- استوکس به طور گسترده در زمینههای مختلف علوم مانند مدل سازی جریانهای اقیانوسی، جریان جاری در یک لوله، جریان های اطراف یک بال و به طور کلی در دینامیک سیالات کاربرد دارند. در این مقاله روش بدون شبکه توابع پایه شعاعی برای حل این معادلات به کار گرفته خواهد شد به این ترتیب که ابتدا ایده منظم سازی برای تبدیل معادله مورد نظر به دستگاه معادلات دیفرانسیل معمولی مورد استفاده قرار می گیرد...
[ 3 ] - High Order Compact Finite Difference Schemes for Solving Bratu-Type Equations
In the present study, high order compact finite difference methods is used to solve one-dimensional Bratu-type equations numerically. The convergence analysis of the methods is discussed and it is shown that the theoretical order of the method is consistent with its numerical rate of convergence. The maximum absolute errors in the solution at grid points are calculated and it is shown that the ...
[ 4 ] - Solving the fractional integro-differential equations using fractional order Jacobi polynomials
In this paper, we are intend to present a numerical algorithm for computing approximate solution of linear and nonlinear Fredholm, Volterra and Fredholm-Volterra integro-differential equations. The approximated solution is written in terms of fractional Jacobi polynomials. In this way, firstly we define Riemann-Liouville fractional operational matrix of fractional order Jacobi polynomials, the...
Co-Authors