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Article
1 - Approximation of the n-th Root of a Fuzzy Number by Polynomial Form Fuzzy NumbersTheory of Approximation and Applications , Issue 1 , Year , Winter 2015In this paper we introduce the root of a fuzzy number, and we present aniterative method to nd it, numerically. We present an algorithm to generatea sequence that can be converged to n-th root of a fuzzy number.In this paper we introduce the root of a fuzzy number, and we present aniterative method to nd it, numerically. We present an algorithm to generatea sequence that can be converged to n-th root of a fuzzy number. Manuscript profile -
Article
2 - ABS-Type Methods for Solving $m$ Linear Equations in $\frac{m}{k}$ Steps for $k=1,2,\cdots,m$International Journal of Mathematical Modeling & Computations , Issue 4 , Year , Summer 2017The ABS methods, introduced by Abaffy, Broyden and Spedicato, aredirect iteration methods for solving a linear system where the$i$-th iteration satisfies the first $i$ equations, therefore a syst MoreThe ABS methods, introduced by Abaffy, Broyden and Spedicato, aredirect iteration methods for solving a linear system where the$i$-th iteration satisfies the first $i$ equations, therefore a system of $m$ equations is solved in at most $m$ steps. In thispaper, we introduce a class of ABS-type methods for solving a full rowrank linear equations, where the $i$-th iteration solves the first$3i$ equations. We also extended this method for $k$ steps. So,termination is achieved in at most $\left[\frac{m+(k-1)}{k}\right]$steps. Morever in our new method in each iteration, we have thethe general solution of each iteration. Manuscript profile