Robust continuous-time and discrete-time flow control of a dam-river system. II: Controller design
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Publication:1960762
DOI10.1016/S0307-904X(99)00013-XzbMath0953.93056OpenAlexW2109723789MaRDI QIDQ1960762
Didier Georges, Xavier Litrico
Publication date: 7 December 2000
Published in: Applied Mathematical Modelling (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/s0307-904x(99)00013-x
Application models in control theory (93C95) Design techniques (robust design, computer-aided design, etc.) (93B51)
Related Items (11)
Time Domain Tuning of Fractional Order Controllers Combined With a Smith Predictor for Automation of Water Distribution in Irrigation Main Channel Pools ⋮ Time-delayed feedback control of a hydraulic model governed by a diffusive wave system ⋮ Further results on the robust regulation of a one-dimensional dam-river system ⋮ Stability analysis and numerical simulations of a one dimensional open channel hydraulic system ⋮ Flow separation prevention around a NACA0012 profile through multivariable feedback controlled plasma actuators ⋮ Robust boundary control of systems of conservation laws ⋮ Stabilization of a one-dimensional dam-river system: nondissipative and noncollocated case ⋮ Multimodelling Steps for Free-Surface Hydraulic System Control ⋮ Sensor and actuator placement trade-offs for a linear model of spatially developing flows ⋮ An LPV fractional model for canal control ⋮ State and parameter estimation in 1-D hyperbolic PDEs based on an adjoint method
Cites Work
- Estimation of uncertainty in an open-channel network mathematical model
- Continuous-time and discrete-time design of water flow and water level regulators
- Robust continuous-time and discrete-time flow control of a dam-river system. I: Modelling
- Smith predictor design for robust performance
- Robust digital control of systems with time delay (the Smith predictor revisited)
- Unnamed Item
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