Nonlinear Model Predictive Control [electronic resource] :Theory and Algorithms / by Lars Grüne, Jürgen Pannek.
by Grüne, Lars; Pannek, Jürgen; SpringerLink (Online service).
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BookSeries: Communications and Control Engineering.Publisher: London : Springer London, 2011Description: XII, 370p. 64 illus., 9 illus. in color. digital.ISBN: 9780857295019.Subject(s): Engineering | Chemical engineering | Systems theory | Engineering | Control | Systems Theory, Control | Industrial Chemistry/Chemical Engineering | Automotive EngineeringDDC classification: 629.8 Online resources: Click here to access online | Item type | Current location | Call number | Status | Date due | Barcode |
|---|---|---|---|---|---|
| MAIN LIBRARY | TJ212-225 (Browse shelf) | Available |
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| TA177.4-185 Engineering Asset Management and Infrastructure Sustainability | QA75.5-76.95 Pattern Recognition | RC681-688.2 Perioperative Medicine | TJ212-225 Nonlinear Model Predictive Control | RD701-811 Anterior Knee Pain and Patellar Instability | R858-859.7 Metadata-driven Software Systems in Biomedicine | TJ212-225 Stability and Stabilization of Nonlinear Systems |
Introduction -- Discrete-time and Sampled-data Systems -- Nonlinear Model Predictive Control -- Infinite-horizon Optimal Control -- Stability and Suboptimality Using Stabilizing Constraints -- Stability and Suboptimality without Stabilizing Constraints -- Feasibility and Robustness -- Numerical Discretization -- Numerical Optimal Control of Nonlinear Systems -- Examples -- Appendix: Brief Introduction to NMPC Software.
.Nonlinear model predictive control (NMPC) is widely used in the process and chemical industries and increasingly for applications, such as those in the automotive industry, which use higher data sampling rates.
Nonlinear Model Predictive Control is a thorough and rigorous introduction to NMPC for discrete-time and sampled-data systems. NMPC is interpreted as an approximation of infinite-horizon optimal control so that important properties like closed-loop stability, inverse optimality and suboptimality can be derived in a uniform manner. These results are complemented by discussions of feasibility and robustness. NMPC schemes with and without stabilizing terminal constraints are detailed and intuitive examples illustrate the performance of different NMPC variants. An introduction to nonlinear optimal control algorithms gives insight into how the nonlinear optimisation routine – the core of any NMPC controller – works. An appendix covering NMPC software and accompanying software in MATLAB® and C++(downloadable from http://www.nmpc-book.com/ ) enables readers to perform computer experiments exploring the possibilities and limitations of NMPC.
Nonlinear Model Predictive Control is primarily aimed at academic researchers and practitioners working in control and optimisation but the text is self-contained featuring background material on infinite-horizon optimal control and Lyapunov stability theory which makes the book accessible to graduate students of control engineering and applied mathematics..
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