[[abstract]]Closed form formulas for well-defined complex-valued solutions to a product-type system of difference equations of interest with six parameters are presented. The form of the solutions is described in detail in terms of the parameters and initial values
The problem of solvability of the following second order system of difference equations z(n+1) = alp...
WOS:000741090800004In this paper, we give explicit formulas of the solutions of the two general syst...
Here we solve the following system of difference equations $$x_{n+1}=\frac{y_ny_{n-2}}{bx_{n-1}+ay_{...
Closed form formulas for well-defined complex-valued solutions to a product-type system of differenc...
Abstract Solution to the solvability problem for a class of product-type systems of difference equat...
Abstract The solvability of the following system of difference equations z n + 1 = α z n a w n b , w...
It is shown that a class of third order product-type systems of difference equations is solvable in...
The solvability of the following three-dimensional product-type system of difference equations ...
We show that the system of difference equations $$ z_{n+1}=\frac{w_n^a}{z_{n-1}^b},\quad w_{n+1}...
This paper essentially presents the last and important steps in the study of (practical) solvability...
A solvable two-dimensional product-type system of difference equations of interest is presented. Clo...
Bu tez dört bölümden oluşmaktadır. Birinci bölüm kendi içinde giriş ve literatür taraması olarak ik...
Here, we give explicit formulae for solutions of some systems of difference equations, which extend ...
We present thirty-six classes of three-dimensional systems of difference equations of the hyperbolic...
The solvability of a k-dimensional system of difference equations of interest, which extends several...
The problem of solvability of the following second order system of difference equations z(n+1) = alp...
WOS:000741090800004In this paper, we give explicit formulas of the solutions of the two general syst...
Here we solve the following system of difference equations $$x_{n+1}=\frac{y_ny_{n-2}}{bx_{n-1}+ay_{...
Closed form formulas for well-defined complex-valued solutions to a product-type system of differenc...
Abstract Solution to the solvability problem for a class of product-type systems of difference equat...
Abstract The solvability of the following system of difference equations z n + 1 = α z n a w n b , w...
It is shown that a class of third order product-type systems of difference equations is solvable in...
The solvability of the following three-dimensional product-type system of difference equations ...
We show that the system of difference equations $$ z_{n+1}=\frac{w_n^a}{z_{n-1}^b},\quad w_{n+1}...
This paper essentially presents the last and important steps in the study of (practical) solvability...
A solvable two-dimensional product-type system of difference equations of interest is presented. Clo...
Bu tez dört bölümden oluşmaktadır. Birinci bölüm kendi içinde giriş ve literatür taraması olarak ik...
Here, we give explicit formulae for solutions of some systems of difference equations, which extend ...
We present thirty-six classes of three-dimensional systems of difference equations of the hyperbolic...
The solvability of a k-dimensional system of difference equations of interest, which extends several...
The problem of solvability of the following second order system of difference equations z(n+1) = alp...
WOS:000741090800004In this paper, we give explicit formulas of the solutions of the two general syst...
Here we solve the following system of difference equations $$x_{n+1}=\frac{y_ny_{n-2}}{bx_{n-1}+ay_{...