On global attractivity of a class of nonautonomous difference equations
DOI10.1155/2010/364083zbMath1203.39010OpenAlexW2044522378WikidataQ58650780 ScholiaQ58650780MaRDI QIDQ1958758
Xiaofan Yang, Jianqiu Cao, Wanping Liu
Publication date: 29 September 2010
Published in: Discrete Dynamics in Nature and Society (Search for Journal in Brave)
Full work available at URL: https://eudml.org/doc/225876
global attractivitypositive equilibriumrational difference equationsnonautonomous difference equations
Multiplicative and other generalized difference equations (39A20) Growth, boundedness, comparison of solutions to difference equations (39A22) Stability theory for difference equations (39A30)
Related Items (6)
Cites Work
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- On a max-type and a min-type difference equation
- Global stability and asymptotics of some classes of rational difference equations
- Asymptotic behavior of a class of nonlinear difference equations
- The behavior of positive solutions of a nonlinear second-order difference equation
- Global stability of a max-type difference equation
- Global stability of a difference equation with maximum
- On the max-type equation \(x_{n+1}=\max \{\frac{A}{x_n},x_{n-2}\}\)
- On a class of third-order nonlinear difference equations
- On the asymptotics of nonlinear difference equations
- On the recursive sequence \(x_{n+1}=x_{n-1}/g(x_n)\)
- The recursive sequence \(x_{n+1} = g(x_{n},x_{n-1})/(A + x_{n})\)
- Quantitative bounds for the recursive sequence \(y_{n} + 1 = A + \frac {{y}_{n}}{{y}_{n-k}}\)
- Existence of nontrivial solutions of a rational difference equation
- On the system of rational difference equations \(x_{n+1}=f(y_{n - q},x_{n - s})\), \(y_{n+1}=g(x_{n - t},y_{n - p})\)
- Global asymptotic stability in a class of difference equations
- Asymptotics of some classes of higher-order difference equations
- Dynamics of a class of higher order difference equations
- On positive solutions of a (\(k+1\))th order difference equation
- On monotone solutions of some classes of difference equations
- On the recursive sequence \(x_{n+1}=\frac{\alpha+\beta x_{n-k}}{f(x_n,\dots,x_{n-k+1})}\)
- Global behavior of the nonlinear difference equation \(x_{n+1}=f(x_{n - s},x_{n - t})\)
- On a generalized max-type difference equation from automatic control theory
- On the asymptotics of the difference equation y n (1 + y n − 1 … y n − k + 1) = y n − k
- On the recursive sequence 𝑥_{𝑛+1}=\frac{𝐴}𝑥_{𝑛}+\frac{1}𝑥_{𝑛-2}
- Inclusion Theorems for Non-linear Difference Equations with Applications
- On the Recursive Sequence
- Corrigendum: Corrections to ‘Inclusion theorems for non-linear difference equations with applications’
- On the asymptotics of the difference equation
- On the eventual periodicity of with a period-four parameter
- On global periodicity of difference equations
- Global asymptotic stability of a family of difference equations
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