L Jia, C Wang, X Zhao, W Wei - Symmetry, 2022 - mdpi.com
In this paper, our aim is to study the following fuzzy system: xn+ 1= A xn− 1 xn− 2+ B xn− 3 D+ C xn− 4, n= 0, 1, 2,⋯, where {xn} is a sequence of positive fuzzy numbers and the initial …
EM Elsayed, F Alzahrani… - Journal of Computational …, 2018 - researchgate.net
We obtain the formulas of the solutions of the recursive sequences xn+ 1= xnxnL5 xnL4 (±1±xnxnL5), n= 0, 1,..., where the initial conditions are arbitrary non zero real numbers …
C Wang, J Li - Journal of Mathematics, 2020 - Wiley Online Library
The paper is concerned with the dynamics behavior of positive solutions for the following max‐type fuzzy difference equation system: xn+ 1= max {A/xn, A/xn− 1, xn− 2}, n= 0, 1, 2 …
T Sun, G Su, C Han, F Zeng, B Qin - Fuzzy Sets and Systems, 2022 - Elsevier
In this paper, we investigate the eventual periodicity of a system of max-type fuzzy difference equations of higher order where the coefficients and the initial values are positive fuzzy …
İ Yalçınkaya, V Çalışkan, DT Tollu - Communications Faculty of …, 2022 - dergipark.org.tr
In this paper we investigate the existence, the boundedness and the asymptotic behavior of the positive solutions of the fuzzy difference equation\[z_ {n+ 1}=\dfrac {Az_ {n-1}}{1+ z_ {n …
C Han, L Li, G Su, T Sun - Open Mathematics, 2022 - degruyter.com
Difference equations are often used to create discrete mathematical models. In this paper, we mainly study the dynamical behaviors of positive solutions of a nonlinear fuzzy difference …
In this paper, we investigate existence, boundedness, asymptotic behavior and the oscillatory behavior of the positive solutions of the fuzzy difference equation zn+ 1= A+ B zn …
T Sun, G Su, B Qin - Fuzzy Sets and Systems, 2020 - Elsevier
In this paper, we study the global asymptotic behavior of the positive solutions of the following fuzzy difference equation xn= F (xn− 1, xn− k), n∈{0, 1,⋯}, under appropriate …