Part I: Large-scale Problems.- Identification and Control of Polymerization Reactors.- Open-cut Mine Planning viz Closed-loop Receding-horizon Optimal Control.- Energy Saving in a Copper Smelter by Means of Model Predictive Control.- On Hybrid Model Predictive Control of Sewer Networks.- Part II: Aerospace.- Nonlinear System Identification of Aeroelastic Systems: A Structure Detection Approach.- Modeling and Control of Flexible Structures in Frequency Domain.- Part III: Vision and Sound.- Robust Identification (In)Validation of Active Vision Systems.- Identification and Control Structure Design in Active (Acoustic) Noise Design.- Part IV: Electromechanical.- Iterative Identification and Control Design: Methodology and Applications.- Classical, Robust and LPV Control of a Magnetic Bearing Experiment.
Identification and Control: The Gap between Theory and Practice / Edition 1by Ricardo S. Sanchez-Pena, Joseba Quevedo Casin, Vicenc Puig Cayuela
Pub. Date: 07/03/2007
Publisher: Springer London
While automatic control and system identification have evolved very rapidly in recent years, there is still an important disjunction between the ideas in theoretical texts and what goes on in real plant. There are very few, if any, situations in which "out-of-the-box" theory fits practical application without simplification and adjustment. This mismatch is
While automatic control and system identification have evolved very rapidly in recent years, there is still an important disjunction between the ideas in theoretical texts and what goes on in real plant. There are very few, if any, situations in which "out-of-the-box" theory fits practical application without simplification and adjustment. This mismatch is important, especially in safety-critical applications and is usually compensated by extensive simulation and/or experimental testing.
Identification and Control meets the difficulty of making practical use of new systems theory head on, presenting a selection of varied applications together with relevant theory. The highly-experienced groups of researchers and engineers contributing to this volume show how workable identification and control solutions can be derived by adapting and extrapolating from the theory. Each chapter has a common structure: a brief presentation of theory, extensively cited throughout the chapter; the description of a particular application; experimental results; and a final section highlighting, explaining and laying out solutions to the discrepancy between the theoretical and the practical.
The extensive list of applications used as examples includes: mine planning, suspension polymerization, copper founding, magnetic bearings, electromechanical systems, aircraft flight, active noise control, sewer networks, flexible structures, active suspension and active vision.
Identification and Control faces a well-known but often-evaded problem squarely and helps it readers to prevail against it. This collection is written for researchers interested in the application of control theory and for engineers who want to make use of new ideas in identification and control.
- Springer London
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