Robust Coupling-Observer-Based Linear Quadratic Regulator for Air-Breathing Hypersonic Vehicles with Flexible Dynamics and Parameter Uncertainties
DOI10.1007/978-981-10-2335-4_15zbMath1414.93083OpenAlexW2520450196MaRDI QIDQ5377259
Lin Zhao, Na Wang, Chong Lin, Yu Mei Ma
Publication date: 24 May 2019
Published in: Proceedings of 2016 Chinese Intelligent Systems Conference (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1007/978-981-10-2335-4_15
linear quadratic regulatoruncertaintiesflexible air-breathing hypersonic vehiclerobust coupling observer
Sensitivity (robustness) (93B35) Controllability (93B05) Control/observation systems with incomplete information (93C41) Application models in control theory (93C95) Variable structure systems (93B12) Linear-quadratic optimal control problems (49N10) Control/observation systems governed by ordinary differential equations (93C15)
Cites Work
- Adaptive restricted trajectory tracking for a non-minimum phase hypersonic vehicle model
- Coupling-observer-based nonlinear control for flexible air-breathing hypersonic vehicles
- Adaptive sliding mode tracking control for a flexible air-breathing hypersonic vehicle
- Characteristic model-based \(H_2/H_\infty\) robust adaptive control during the re-entry of hypersonic cruise vehicles
- Composite disturbance-observer-based control and H ∞ control for complex continuous models
- Design of Robust Control Systems for a Hypersonic Aircraft
- Disturbance attenuation and rejection for systems with nonlinearity via DOBC approach
- Analytical aeropropulsive-aeroelastic hypersonic-vehicle model with dynamic analysis
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