Ebook: Extremum-Seeking Control and Applications: A Numerical Optimization-Based Approach
- Tags: Control, Calculus of Variations and Optimal Control, Optimization, Automotive Engineering, Communications Engineering Networks, Aerospace Technology and Astronautics, Power Electronics Electrical Machines and Networks
- Series: Advances in Industrial Control
- Year: 2012
- Publisher: Springer-Verlag London
- Edition: 1
- Language: English
- pdf
Extremum-seeking control tracks a varying maximum or minimum in a performance function such as output or cost. It attempts to determine the optimal performance of a control system as it operates, thereby reducing downtime and the need for system analysis. Extremum-seeking Control and Applications is divided into two parts. In the first, the authors review existing analog-optimization-based extremum-seeking control including gradient-, perturbation- and sliding-mode-based control designs. They then propose a novel numerical-optimization-based extremum-seeking control based on optimization algorithms and state regulation. This control design is developed for simple linear time-invariant systems and then extended for a class of feedback linearizable nonlinear systems. The two main optimization algorithms – line search and trust region methods – are analyzed for robustness. Finite-time and asymptotic state regulators are put forward for linear and nonlinear systems respectively. Further design flexibility is achieved using the robustness results of the optimization algorithms and the asymptotic state regulator by which existing nonlinear adaptive control techniques can be introduced for robust design. The approach used is easier to implement and tends to be more robust than those that use perturbation-based extremum-seeking control. The second part of the book deals with a variety of applications of extremum-seeking control: a comparative study of extremum-seeking control schemes in antilock braking system design; source seeking, formation control, collision and obstacle avoidance for groups of autonomous agents; mobile radar networks; and impedance matching. MATLAB®/Simulink® code which can be downloaded from www.springer.com/ISBN helps readers to reproduce the results presented in the text and gives them a head start for implementing the algorithms in their own applications. Extremum-seeking Control and Applications will interest academics and graduate students working in control, and industrial practitioners from a variety of backgrounds: systems, automotive, aerospace, communications, semiconductor and chemical engineering.
Extremum seeking control tracks a varying maximum or minimum in a performance function such as a cost. It attempts to determine the optimal performance of a control system as it operates, thereby reducing downtime and the need for system analysis.
Extremum Seeking Control and Applications is divided into two parts. In the first, the authors review existing analog optimization based extremum seeking control including gradient, perturbation and sliding mode based control designs. They then propose a novel numerical optimization based extremum seeking control based on optimization algorithms and state regulation. This control design is developed for simple linear time-invariant systems and then extended for a class of feedback linearizable nonlinear systems.
The two main optimization algorithms – line search and trust region methods – are analyzed for robustness. Finite-time and asymptotic state regulators are put forward for linear and nonlinear systems respectively. Further design flexibility is achieved using the robustness results of the optimization algorithms and the asymptotic state regulator by which existing nonlinear adaptive control techniques can be introduced for robust design. The approach used is easier to implement than those that use perturbation based extremum seeking control, and tends to display a high level of robustness.
The second part of the book deals with a variety of applications of extremum seeking control:
· a comparative study of extremum seeking control schemes in antilock braking system design;
· impedance matching;
· source seeking, formation control, collision and obstacle avoidance for groups of autonomous agents; and
· mobile radar networks.
Extremum Seeking Control and Applications will interest academics and graduate students working in control, and industrial practitioners from a variety of backgrounds: systems, automotive, aerospace, communications, semiconductor and chemical engineering.
Extremum seeking control tracks a varying maximum or minimum in a performance function such as a cost. It attempts to determine the optimal performance of a control system as it operates, thereby reducing downtime and the need for system analysis.
Extremum Seeking Control and Applications is divided into two parts. In the first, the authors review existing analog optimization based extremum seeking control including gradient, perturbation and sliding mode based control designs. They then propose a novel numerical optimization based extremum seeking control based on optimization algorithms and state regulation. This control design is developed for simple linear time-invariant systems and then extended for a class of feedback linearizable nonlinear systems.
The two main optimization algorithms – line search and trust region methods – are analyzed for robustness. Finite-time and asymptotic state regulators are put forward for linear and nonlinear systems respectively. Further design flexibility is achieved using the robustness results of the optimization algorithms and the asymptotic state regulator by which existing nonlinear adaptive control techniques can be introduced for robust design. The approach used is easier to implement than those that use perturbation based extremum seeking control, and tends to display a high level of robustness.
The second part of the book deals with a variety of applications of extremum seeking control:
· a comparative study of extremum seeking control schemes in antilock braking system design;
· impedance matching;
· source seeking, formation control, collision and obstacle avoidance for groups of autonomous agents; and
· mobile radar networks.
Extremum Seeking Control and Applications will interest academics and graduate students working in control, and industrial practitioners from a variety of backgrounds: systems, automotive, aerospace, communications, semiconductor and chemical engineering.
Content:
Front Matter....Pages I-XVIII
Front Matter....Pages 1-1
Introduction....Pages 3-29
Numerical Optimization....Pages 31-45
Design of Extremum Seeking Control....Pages 47-66
Finite Time State Regulator Design....Pages 67-87
Asymptotic State Regulator Design....Pages 89-117
Front Matter....Pages 119-119
Antilock Braking Systems....Pages 121-131
Impedance Matching in Semiconductor Plasma Processing Chamber....Pages 133-153
Swarm Tracking....Pages 155-197
Back Matter....Pages 199-203
Extremum seeking control tracks a varying maximum or minimum in a performance function such as a cost. It attempts to determine the optimal performance of a control system as it operates, thereby reducing downtime and the need for system analysis.
Extremum Seeking Control and Applications is divided into two parts. In the first, the authors review existing analog optimization based extremum seeking control including gradient, perturbation and sliding mode based control designs. They then propose a novel numerical optimization based extremum seeking control based on optimization algorithms and state regulation. This control design is developed for simple linear time-invariant systems and then extended for a class of feedback linearizable nonlinear systems.
The two main optimization algorithms – line search and trust region methods – are analyzed for robustness. Finite-time and asymptotic state regulators are put forward for linear and nonlinear systems respectively. Further design flexibility is achieved using the robustness results of the optimization algorithms and the asymptotic state regulator by which existing nonlinear adaptive control techniques can be introduced for robust design. The approach used is easier to implement than those that use perturbation based extremum seeking control, and tends to display a high level of robustness.
The second part of the book deals with a variety of applications of extremum seeking control:
· a comparative study of extremum seeking control schemes in antilock braking system design;
· impedance matching;
· source seeking, formation control, collision and obstacle avoidance for groups of autonomous agents; and
· mobile radar networks.
Extremum Seeking Control and Applications will interest academics and graduate students working in control, and industrial practitioners from a variety of backgrounds: systems, automotive, aerospace, communications, semiconductor and chemical engineering.
Content:
Front Matter....Pages I-XVIII
Front Matter....Pages 1-1
Introduction....Pages 3-29
Numerical Optimization....Pages 31-45
Design of Extremum Seeking Control....Pages 47-66
Finite Time State Regulator Design....Pages 67-87
Asymptotic State Regulator Design....Pages 89-117
Front Matter....Pages 119-119
Antilock Braking Systems....Pages 121-131
Impedance Matching in Semiconductor Plasma Processing Chamber....Pages 133-153
Swarm Tracking....Pages 155-197
Back Matter....Pages 199-203
....