Asymptotic stability and instability with respect to part of variables for solutions to impulsive systems.
Ignat'ev, A.O. (2008)
Sibirskij Matematicheskij Zhurnal
Similarity:
Ignat'ev, A.O. (2008)
Sibirskij Matematicheskij Zhurnal
Similarity:
Krzysztof Ciesielski (2004)
Bulletin of the Polish Academy of Sciences. Mathematics
Similarity:
Several results on stability in impulsive dynamical systems are proved. The first main result gives equivalent conditions for stability of a compact set. In particular, a generalization of Ura's theorem to the case of impulsive systems is shown. The second main theorem says that under some additional assumptions every component of a stable set is stable. Also, several examples indicating possible complicated phenomena in impulsive systems are presented.
Liu, Kaien, Yang, Guowei (2008)
Journal of Inequalities and Applications [electronic only]
Similarity:
Mathew Omonigho Omeike (2008)
Acta Universitatis Palackianae Olomucensis. Facultas Rerum Naturalium. Mathematica
Similarity:
Sufficient conditions are established for the global stability of solutions of certain third-order nonlinear differential equations. Our result improves on Tunc’s [10].
Tervo, J., Nihtilä, M. (2000)
Zeitschrift für Analysis und ihre Anwendungen
Similarity:
Andrew R. Teel (2010)
ESAIM: Control, Optimisation and Calculus of Variations
Similarity:
Multi-level saturation feedbacks induce nonlinear disturbance-to-state stability for nonlinear systems in feedforward form. This class of systems includes linear systems with actuator constraints.
Drumi Bainov, Emil Minchev (1999)
ESAIM: Mathematical Modelling and Numerical Analysis - Modélisation Mathématique et Analyse Numérique
Similarity:
Byszewski, Ludwik (1993)
Journal of Applied Mathematics and Stochastic Analysis
Similarity: