Practical design and application of model predictive control : MPC for MATLAB® and Simulink® users

Practical Design and Application of Model Predictive Control is a self-learning resource on how to design, tune and deploy an MPC using MATLAB (R) and Simulink (R). This reference is one of the most detailed publications on how to design and tune MPC controllers. Examples presented range from double-Mass spring system, ship heading and speed control, robustness analysis through Monte-Carlo simulations, photovoltaic optimal control, and energy management of power-split and air-handling control. Readers will also learn how to embed the designed MPC controller in a real-time platform such as Arduino (R). The selected problems are nonlinear and challenging, and thus serve as an excellent experimental, dynamic system to show the reader the capability of MPC. The step-by-step solutions of the problems are thoroughly documented to allow the reader to easily replicate the results. Furthermore, the MATLAB (R) and Simulink (R) codes for the solutions are available for free download. Readers can connect with the authors through the dedicated website which includes additional free resources at www.practicalmpc.com.

1. Introduction 2. Theoretical Foundation of MPC 3. MPC Design for a Double Mass-Spring System 4. System Identification for a Ship 5. Single MPC Design for a Ship 6. Multiple MPC Design for a Ship 7. Monte-Carlo Simulations and Robustness Analysis for Multiple MPC of a Ship 8. MPC Design for Photovoltaic Cells 9. Real Time Embedded Target Application of MPC 10. MPC Design for Air-Handling Control of a Diesel Engine