Trading quantization precision for update rates for systems with limited communication in the uplink channel
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Publication:987659
DOI10.1016/J.AUTOMATICA.2010.04.001zbMath1194.93122OpenAlexW2158896303WikidataQ56935665 ScholiaQ56935665MaRDI QIDQ987659
Mohamed El Mongi Ben Gaid, Arben Çela
Publication date: 13 August 2010
Published in: Automatica (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.automatica.2010.04.001
Discrete-time control/observation systems (93C55) Lyapunov and other classical stabilities (Lagrange, Poisson, (L^p, l^p), etc.) in control theory (93D05)
Related Items (11)
Quantized control for networked control systems with packet dropout and unknown disturbances ⋮ T-S fuzzy-model-based piecewise \(\mathcal{H}_\infty\) output feedback controller design for networked nonlinear systems with medium access constraint ⋮ Co-design of dynamic scheduling and quantized control for networked control systems ⋮ Constrained predictive control synthesis for quantized systems with Markovian data loss ⋮ Finite‐time energy‐to‐peak quantized filtering for Markov jump networked systems under weighted try‐once‐discard protocol ⋮ \(H_\infty\) control for networked control systems with time delays and packet dropouts ⋮ Delay-dependent \(H_\infty\) control for networked control systems with large delays ⋮ Stabilization of fuzzy systems with quantization and packet dropout ⋮ Networked predictive control of constrained linear systems with input quantisation ⋮ Dual scheduling and quantised control for networked control systems with communication constraints ⋮ Observer-based \(H_\infty\) control design for nonlinear networked control systems with limited information
Cites Work
- Theory and computation of disturbance invariant sets for discrete-time linear systems
- Set invariance in control
- Packet-based control: the \(H_2\)-optimal solution
- Stabilization of linear systems with limited information
- Networked Control Systems With Communication Constraints: Tradeoffs Between Transmission Intervals, Delays and Performance
- Quantized Stabilization of Linear Systems: Complexity Versus Performance
- Stability of Model-Based Networked Control Systems With Time-Varying Transmission Times
- Invariant approximations of the minimal robust positively Invariant set
- Stabilizing a linear system with quantized state feedback
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