Ebook: Periodic Systems: Filtering and Control
- Tags: Vibration Dynamical Systems Control, Systems Theory Control, Control Engineering, Signal Image and Speech Processing, Difference and Functional Equations, Quantitative Finance
- Series: Communications and Control Engineering
- Year: 2009
- Publisher: Springer-Verlag London
- Edition: 1
- Language: English
- pdf
The advantages of periodic control have been known since humanity learned to cultivate crops in rotation to increase production. In more recent times, it has been recognized that some industrial and technological systems also work or function better in a periodic fashion. Moreover, with periodic control laws it has been possible to solve problems for which no time-invariant solution exists. Periodic models are also able to describe the intrinsic periodicity in many natural phenomena and time series.
Periodic Systems gives a comprehensive treatment of the theory of time-varying dynamical systems with periodic coefficients, with special focus on the problems of filtering and control.
Topics covered include:
• basic issues like Floquet theory, controllability and observability, canonical decomposition, system norms and Lyapunov and robust stability;
• the problem of state estimation in its various forms, filtering, prediction and smoothing;
• control design methods, particularly optimal and robust control.
The text focuses on discrete-time signals and systems; however, an overview of the entire field, including the continuous-time case, is provided in the first chapter. The authors’ presentation of the theory and results is mathematically rigorous while maintaining a readable style, avoiding excessive formalism. This makes the book accessible to graduate students and researchers from the fields of engineering, physics, economics and mathematics.
The advantages of periodic control have been known since humanity learned to cultivate crops in rotation to increase production. In more recent times, it has been recognized that some industrial and technological systems also work or function better in a periodic fashion. Moreover, with periodic control laws it has been possible to solve problems for which no time-invariant solution exists. Periodic models are also able to describe the intrinsic periodicity in many natural phenomena and time series.
Periodic Systems gives a comprehensive treatment of the theory of time-varying dynamical systems with periodic coefficients, with special focus on the problems of filtering and control.
Topics covered include:
• basic issues like Floquet theory, controllability and observability, canonical decomposition, system norms and Lyapunov and robust stability;
• the problem of state estimation in its various forms, filtering, prediction and smoothing;
• control design methods, particularly optimal and robust control.
The text focuses on discrete-time signals and systems; however, an overview of the entire field, including the continuous-time case, is provided in the first chapter. The authors’ presentation of the theory and results is mathematically rigorous while maintaining a readable style, avoiding excessive formalism. This makes the book accessible to graduate students and researchers from the fields of engineering, physics, economics and mathematics.
The advantages of periodic control have been known since humanity learned to cultivate crops in rotation to increase production. In more recent times, it has been recognized that some industrial and technological systems also work or function better in a periodic fashion. Moreover, with periodic control laws it has been possible to solve problems for which no time-invariant solution exists. Periodic models are also able to describe the intrinsic periodicity in many natural phenomena and time series.
Periodic Systems gives a comprehensive treatment of the theory of time-varying dynamical systems with periodic coefficients, with special focus on the problems of filtering and control.
Topics covered include:
• basic issues like Floquet theory, controllability and observability, canonical decomposition, system norms and Lyapunov and robust stability;
• the problem of state estimation in its various forms, filtering, prediction and smoothing;
• control design methods, particularly optimal and robust control.
The text focuses on discrete-time signals and systems; however, an overview of the entire field, including the continuous-time case, is provided in the first chapter. The authors’ presentation of the theory and results is mathematically rigorous while maintaining a readable style, avoiding excessive formalism. This makes the book accessible to graduate students and researchers from the fields of engineering, physics, economics and mathematics.
Content:
Front Matter....Pages i-xix
Introduction....Pages 1-59
Linear Periodic Systems....Pages 61-80
Floquet Theory and Stability....Pages 81-108
Structural Properties....Pages 109-154
Periodic Transfer Function and BIBO Stability....Pages 155-170
Time-invariant Reformulations....Pages 171-192
State–Space Realization....Pages 193-213
Zeros, Poles, and the Delay Structure....Pages 215-234
Norms of Periodic Systems....Pages 235-264
Factorization and Parametrization....Pages 265-289
Stochastic Periodic Systems....Pages 291-310
Filtering and Deconvolution....Pages 311-352
Stabilization and Control....Pages 353-405
Back Matter....Pages 407-424
The advantages of periodic control have been known since humanity learned to cultivate crops in rotation to increase production. In more recent times, it has been recognized that some industrial and technological systems also work or function better in a periodic fashion. Moreover, with periodic control laws it has been possible to solve problems for which no time-invariant solution exists. Periodic models are also able to describe the intrinsic periodicity in many natural phenomena and time series.
Periodic Systems gives a comprehensive treatment of the theory of time-varying dynamical systems with periodic coefficients, with special focus on the problems of filtering and control.
Topics covered include:
• basic issues like Floquet theory, controllability and observability, canonical decomposition, system norms and Lyapunov and robust stability;
• the problem of state estimation in its various forms, filtering, prediction and smoothing;
• control design methods, particularly optimal and robust control.
The text focuses on discrete-time signals and systems; however, an overview of the entire field, including the continuous-time case, is provided in the first chapter. The authors’ presentation of the theory and results is mathematically rigorous while maintaining a readable style, avoiding excessive formalism. This makes the book accessible to graduate students and researchers from the fields of engineering, physics, economics and mathematics.
Content:
Front Matter....Pages i-xix
Introduction....Pages 1-59
Linear Periodic Systems....Pages 61-80
Floquet Theory and Stability....Pages 81-108
Structural Properties....Pages 109-154
Periodic Transfer Function and BIBO Stability....Pages 155-170
Time-invariant Reformulations....Pages 171-192
State–Space Realization....Pages 193-213
Zeros, Poles, and the Delay Structure....Pages 215-234
Norms of Periodic Systems....Pages 235-264
Factorization and Parametrization....Pages 265-289
Stochastic Periodic Systems....Pages 291-310
Filtering and Deconvolution....Pages 311-352
Stabilization and Control....Pages 353-405
Back Matter....Pages 407-424
....