Oscillation of solutions to non-linear difference equations with several advanced arguments. (English) Zbl 1400.39012
Summary: This work concerns the oscillation and asymptotic properties of solutions to the non-linear difference equation with advanced arguments
\[
x_{n+1}-x_n=\sum\limits_{i=1}^mf_{i,n}(x_{n+h_{i,n}}).
\]
We establish sufficient conditions for the existence of positive, and negative solutions. Then we obtain conditions for solutions to be bounded, convergent to positive infinity and to negative infinity and to zero. Also we obtain conditions for all solutions to be oscillatory.
MSC:
| 39A21 | Oscillation theory for difference equations |
| 39A22 | Growth, boundedness, comparison of solutions to difference equations |
References:
| [1] | R. Agarwal, L. Berezansky, E. Braverman, A. Domoshnitsky, Nonoscillation Theory of Functional Differential Equations with Applications, Springer, New York, Dordrecht, Heidelberg, London, 2012. · Zbl 1253.34002 |
| [2] | L. Berezansky, E. Braverman, S. Pinelas, On nonoscillation of mixed advanced-delay differential equations with positive and negative coefficients, Comput. Math. Appl. 58 (2009) 4, 766–775. · Zbl 1197.34118 |
| [3] | F.M. Dannan, S.N. Elaydi, Asymptotic stability of linear difference equations of advanced type, J. Comput. Anal. Appl. 6 (2004) 2, 173–187. · Zbl 1088.39502 |
| [4] | L.E. El’sgol’c, Introduction to the Theory of Differential Equations with Deviating Arguments, Holden-Day, Inc., San Francisco, 1966. · Zbl 0133.33502 |
| [5] | L.H. Erbe, B.G. Zhang, Ocillation of discrete analogues of delay equations, Differential and Integral Equations 2 (1989) 3, 300–309. · Zbl 0723.39004 |
| [6] | N. Fukagai, T. Kusano, Oscillation theory of first order functional-differential equations with deviating arguments, Ann. Mat. Pura Appl. 136 (1984) 1, 95–117. · Zbl 0552.34062 |
| [7] | I. Györi, G. Ladas, Oscillation Theory of Delay Differential Equations, Oxford Math. Monogr., The Clarendon Press, Oxford University Press, New York, 1991. · Zbl 0780.34048 |
| [8] | R.G. Koplatadze, T.A. Chanturija, Oscillating and monotone solutions of first-order differential equations with deviating argument, Differ. Uravn. 18 (1982) 2, 1463–1465 [in Russian]. · Zbl 0496.34044 |
| [9] | M.R. Kulenović, M.K. Grammatikopoulos, Some comparison and oscillation results for first-order differential equations and inequalities with a deviating argument, J. Math. Anal. Appl. 131 (1988) 1, 67–84. · Zbl 0664.34071 |
| [10] | T. Kusano, On even-order functional-differential equations with advanced and retarded arguments, J. Differential Equations 45 (1982) 1, 75–84. · Zbl 0512.34059 |
| [11] | G. Ladas, I.P. Stavroulakis, Oscillations caused by several retarded and advanced argu- ments, J. Differential Equations 44 (1982) 1, 134–152. · Zbl 0452.34058 |
| [12] | X. Li, D. Zhu, Oscillation and nonoscillation of advanced differential equations with variable coefficients, J. Math. Anal. Appl. 269 (2002) 2, 462–488. · Zbl 1013.34067 |
| [13] | X. Li, D. Zhu, Oscillation of advanced difference equations with variable coefficients, Ann. Differential Equations 18 (2002) 2, 254–263. 898Sandra Pinelas and Julio G. Dix · Zbl 1010.39001 |
| [14] | H. Onose, Oscillatory properties of the first-order differential inequalities with deviating argument, Funkcial. Ekvac. 26 (1983) 2, 189–195. · Zbl 0525.34051 |
| [15] | S. Pinelas, Asymptotic behavior of solutions to mixed type differential equations, Electron. J. Differential Equations 2014 (2014) 210, 1–9. · Zbl 1302.34113 |
| [16] | S. Stević, On some solvable difference equations and systems of difference equations, Abstr. Appl. Anal. 2012 (2012), 11 pp. · Zbl 1253.39001 |
| [17] | S. Stević, On a solvable system of difference equations of kth order, Appl. Math. Comput. 219 (2013), 7765–7771. · Zbl 1291.39027 |
| [18] | S. Stević, M.A. Alghamdi, A. Alotaibi, N. Shahzad, On a higher-order system of difference equations, Electron. J. Qual. Theory Differ. Equ. Art. (2013), Article ID 47, 1–18. · Zbl 1340.39018 |
| [19] | B.G. Zhang, Oscillation of the solutions of the first-order advanced type differential equations, Sci. Exploration 2 (1982) 3, 79–82. |
This reference list is based on information provided by the publisher or from digital mathematics libraries. Its items are heuristically matched to zbMATH identifiers and may contain data conversion errors. In some cases that data have been complemented/enhanced by data from zbMATH Open. This attempts to reflect the references listed in the original paper as accurately as possible without claiming completeness or a perfect matching.
