Global output control for a class of inherently higher-order nonlinear time-delay systems based on homogeneous domination approach
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Publication:2312194
DOI10.1155/2013/180717zbMath1417.93249OpenAlexW2146815831WikidataQ58921416 ScholiaQ58921416MaRDI QIDQ2312194
Publication date: 5 July 2019
Published in: Discrete Dynamics in Nature and Society (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1155/2013/180717
Stabilization of systems by feedback (93D15) Control/observation systems governed by functional-differential equations (93C23) Observability (93B07)
Cites Work
- Adaptive stabilization of time-delay feedforward nonlinear systems
- Homogeneous Lyapunov function for homogeneous continuous vector field
- Global asymptotic stability of uncertain stochastic bi-directional associative memory networks with discrete and distributed delays
- A dual-observer design for global output feedback stabilization of nonlinear systems with low-order and high-order nonlinearities
- Global uniform asymptotical stability of a class of nonlinear cascaded systems with application to a nonholonomic wheeled mobile robot
- Robust control of uncertain systems with polynomial nonlinearity by output feedback
- A generalized homogeneous domination approach for global stabilization of inherently nonlinear systems via output feedback
- State‐feedback stabilization for a class of stochastic time‐delay nonlinear systems
- Output Feedback Regulation of a Chain of Integrators With an Unknown Time-Varying Delay in the Input
- Output feedback control of a class of nonlinear systems: a nonseparation principle paradigm
- Stabilization of a Chain of Integrators With an Unknown Delay in the Input by Adaptive Output Feedback
- Homogeneous Approximation, Recursive Observer Design, and Output Feedback
- Design of Stabilizing Controllers With a Dynamic Gain for Feedforward Nonlinear Time-Delay Systems
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