Asymptotic comparison of the solutions of linear time-delay systems with point and distributed lags with those of their limiting equations.
de la Sen, M. (2009)
Abstract and Applied Analysis
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de la Sen, M. (2009)
Abstract and Applied Analysis
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Baštinec, J., Diblík, J., Khusainov, D.Ya., Ryvolová, A. (2010)
Boundary Value Problems [electronic only]
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de la Sen, M., Ibeas, A. (2008)
Mathematical Problems in Engineering
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Okoronkwo, Emmanuel O. (1989)
International Journal of Mathematics and Mathematical Sciences
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De La Sen, M., Ibeas, A. (2008)
Discrete Dynamics in Nature and Society
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Alzabut, Jehad O., Abdeljawad, Thabet (2007)
Discrete Dynamics in Nature and Society
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Moussadek Remili, Lynda Damerdji Oudjedi (2014)
Acta Universitatis Palackianae Olomucensis. Facultas Rerum Naturalium. Mathematica
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In this article, we shall establish sufficient conditions for the asymptotic stability and boundedness of solutions of a certain third order nonlinear non-autonomous delay differential equation, by using a Lyapunov function as basic tool. In doing so we extend some existing results. Examples are given to illustrate our results.
Silviu-Iulian Niculescu (2001)
Kybernetika
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This paper focuses on the problem of uniform asymptotic stability of a class of linear neutral systems including some constant delays and time-varying cone-bounded nonlinearities. Sufficient stability conditions are derived by taking into account the weighting factors describing the nonlinearities. The proposed results are applied to the stability analysis of a class of lossless transmission line models.
Gil', Michael, Cheng, Sui Sun (2007)
Discrete Dynamics in Nature and Society
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