Ebook: Frequency Domain Properties of Scalar and Multivariable Feedback Systems
- Tags: Control Engineering, Systems Theory Control, Calculus of Variations and Optimal Control, Optimization
- Series: Lecture Notes in Control and Information Sciences 104
- Year: 1988
- Publisher: Springer-Verlag Berlin Heidelberg
- Edition: 1
- Language: English
- pdf
The purpose of this monograph is to present recent results concerning frequency response properties of linear feedback systems. The basic theme is to develop extensions of classical feedback theory from scalar to multivariable systems, and the obstacle is the fact that multivariable systems may possess properties having no scalar analogue. The monograph contains sections reviewing ideas from classical control theory that are extended to multivariable systems, a summary of work we have done on design limitation in scalar systems, and a review of some previous work on extending classical ideas to a multivariable setting. The bulk of the monograph develops analysis methods with which to study properties of multivariable systems having no scalar analogue. Although the monograph does contain expository material, its primary character is that of a research monograph, and its primary audience researchers in the field of linear multivariable control. Its contents should be accessible to a first year graduate student with a good knowledge of classical feedback theory.
The purpose of this monograph is to present recent results concerning frequency response properties of linear feedback systems. The basic theme is to develop extensions of classical feedback theory from scalar to multivariable systems, and the obstacle is the fact that multivariable systems may possess properties having no scalar analogue. The monograph contains sections reviewing ideas from classical control theory that are extended to multivariable systems, a summary of work we have done on design limitation in scalar systems, and a review of some previous work on extending classical ideas to a multivariable setting. The bulk of the monograph develops analysis methods with which to study properties of multivariable systems having no scalar analogue. Although the monograph does contain expository material, its primary character is that of a research monograph, and its primary audience researchers in the field of linear multivariable control. Its contents should be accessible to a first year graduate student with a good knowledge of classical feedback theory.
The purpose of this monograph is to present recent results concerning frequency response properties of linear feedback systems. The basic theme is to develop extensions of classical feedback theory from scalar to multivariable systems, and the obstacle is the fact that multivariable systems may possess properties having no scalar analogue. The monograph contains sections reviewing ideas from classical control theory that are extended to multivariable systems, a summary of work we have done on design limitation in scalar systems, and a review of some previous work on extending classical ideas to a multivariable setting. The bulk of the monograph develops analysis methods with which to study properties of multivariable systems having no scalar analogue. Although the monograph does contain expository material, its primary character is that of a research monograph, and its primary audience researchers in the field of linear multivariable control. Its contents should be accessible to a first year graduate student with a good knowledge of classical feedback theory.
Content:
Front Matter....Pages -
Introduction....Pages 1-11
Review of classical results....Pages 12-28
Tradeoffs in the design of scalar linear time-invariant feedback systems....Pages 29-55
Comments on design methodologies....Pages 56-73
Multivariable systems: Summary of existing results and motivation for further work....Pages 74-99
Gain, phase, and directions in multivariable systems....Pages 100-113
The relation between open loop and closed loop properties of multivariable feedback systems....Pages 114-140
Singular values and analytic function theory....Pages 141-152
Structure of the complex unit sphere and singular vectors....Pages 153-178
Differential equations for singular vectors and failure of the Cauchy-Riemann equations....Pages 179-201
A multivariable gain-phase relation....Pages 202-218
An example illustrating the multivariable gain-phase relation....Pages 219-249
Conclusions....Pages 250-251
Back Matter....Pages -
The purpose of this monograph is to present recent results concerning frequency response properties of linear feedback systems. The basic theme is to develop extensions of classical feedback theory from scalar to multivariable systems, and the obstacle is the fact that multivariable systems may possess properties having no scalar analogue. The monograph contains sections reviewing ideas from classical control theory that are extended to multivariable systems, a summary of work we have done on design limitation in scalar systems, and a review of some previous work on extending classical ideas to a multivariable setting. The bulk of the monograph develops analysis methods with which to study properties of multivariable systems having no scalar analogue. Although the monograph does contain expository material, its primary character is that of a research monograph, and its primary audience researchers in the field of linear multivariable control. Its contents should be accessible to a first year graduate student with a good knowledge of classical feedback theory.
Content:
Front Matter....Pages -
Introduction....Pages 1-11
Review of classical results....Pages 12-28
Tradeoffs in the design of scalar linear time-invariant feedback systems....Pages 29-55
Comments on design methodologies....Pages 56-73
Multivariable systems: Summary of existing results and motivation for further work....Pages 74-99
Gain, phase, and directions in multivariable systems....Pages 100-113
The relation between open loop and closed loop properties of multivariable feedback systems....Pages 114-140
Singular values and analytic function theory....Pages 141-152
Structure of the complex unit sphere and singular vectors....Pages 153-178
Differential equations for singular vectors and failure of the Cauchy-Riemann equations....Pages 179-201
A multivariable gain-phase relation....Pages 202-218
An example illustrating the multivariable gain-phase relation....Pages 219-249
Conclusions....Pages 250-251
Back Matter....Pages -
....
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