Finite-time and fixed-time stability analysis for time-varying systems: a dual approach
From MaRDI portal
Publication:2109171
DOI10.1016/j.jfranklin.2022.11.013zbMath1504.93337OpenAlexW4309551936MaRDI QIDQ2109171
Publication date: 20 December 2022
Published in: Journal of the Franklin Institute (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.jfranklin.2022.11.013
Lyapunov and storage functions (93D30) Control/observation systems governed by ordinary differential equations (93C15) Finite-time stability (93D40)
Cites Work
- Dual approach to Lyapunov stability
- Finite-time stability and finite-time synchronization of neural network -- dual approach
- Finite time stability and stabilization of a class of continuous systems
- Finite-time non-fragile \(l_2-l_\infty\) control for jumping stochastic systems subject to input constraints via an event-triggered mechanism
- Finite-time synchronization for complex dynamic networks with semi-Markov switching topologies: an \(H_\infty\) event-triggered control scheme
- Stability notions and Lyapunov functions for sliding mode control systems
- New approach to fixed-time stability of a nonlinear system
- Finite-Time Stabilization and Optimal Feedback Control
- Finite time stability conditions for non-autonomous continuous systems
- Finite Time Controllers
- A class of predefined-time stable dynamical systems
- On optimal predefined‐time stabilization
- Finite-Time Stability of Continuous Autonomous Systems
- Fixed-time stability of ODE and fixed-time stability of neural network
- Finite-Time Stability for Differential Inclusions with Applications to Neural Networks
- Prescribed-Time Observers for Linear Systems in Observer Canonical Form
- Nonlinear Feedback Design for Fixed-Time Stabilization of Linear Control Systems
- A Lyapunov-Like Characterization of Predefined-Time Stability
- Liapunov functions and stability in control theory
This page was built for publication: Finite-time and fixed-time stability analysis for time-varying systems: a dual approach
