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Physiological control systems : analysis, simulation, and estimation / Michael C.K. Khoo.

By: Khoo, Michael C. K [author.].
Contributor(s): John Wiley & Sons [publisher.] | IEEE Xplore (Online service) [distributor.].
Material type: materialTypeLabelBookSeries: IEEE Press series on biomedical engineering: 2Publisher: New York : IEEE Press, c2000Distributor: [Piscataqay, New Jersey] : IEEE Xplore, [1999]Description: 1 PDF (xvii, 319 pages) : illustrations.Content type: text Media type: electronic Carrier type: online resourceISBN: 9780470545515.Subject(s): Physiology -- Mathematical models | Biological control systems -- Mathematical models | Analytical models | Atmospheric modeling | Biographies | Chaos | Chemical elements | Chemicals | Computational modeling | Control systems | Data models | Deconvolution | Equations | Estimation | Fluids | Force | Frequency response | Heating | Indexes | Laplace equations | Linear systems | Logistics | Lungs | MATLAB | Mathematical model | Mercury (metals) | Muscles | Negative feedback | Noise | Nonlinear dynamical systems | Optimization | Oscillators | Predictive models | Resistance | Resonant frequency | Springs | Stability analysis | Steady-state | System identification | Temperature measurement | Temperature sensors | Time domain analysis | Time frequency analysis | Time measurement | Transfer functions | Transient analysis | Transient responseGenre/Form: Electronic books.Additional physical formats: Print version:: No titleDDC classification: 571.7/015118 Online resources: Abstract with links to resource Also available in print.
Contents:
Preface. Acknowledgments. Introduction. Mathematical Modeling. Static Analysis of Physiological Systems. Time-Domain Analysis of Linear Control Systems. Frequency-Domain Analysis of Linear Control Systems. Stability Analysis: Linear Approaches. Identification of Physiological Control Systems. Optimization in Physiological Control. Nonlinear Analysis of Physiological Control Systems. Complex Dynamics in Physiological Control Systems. Appendix I: Commonly Used Laplace Transform Pairs. Appendix II: List of MATLAB and SIMULINK Programs/Functions. Index. About the Author.
Summary: Many recently improved medical diagnostic techniques and therapeutic innovations have resulted from physiological systems modeling. This comprehensive book will help undergraduate and graduate students and biomedical scientists to gain a better understanding of how the principles of control theory, systems analysis, and model identification are used in physiological regulation. Ample Simulink? and MATLAB? examples throughout the text and posted at an IEEE FTP site will provide you with a hands-on approach for exploring modeling and analysis of biological control systems. You will learn about classical control theory and its application to physiological systems, and contemporary topics and methodologies shaping bioengineering research today. Discussions on the latest developments in system identification, optimal control, and nonlinear dynamical analysis will keep you up-to-date with recent bioengineering advances. From modeling and stability analysis to feedback control in physiological regulatory mechanisms, Physiological Control Systems provides an in-depth study of key bioengineering principles that is simply unmatched in the field. An Instructor Support FTP site is available from the Wiley editorial department: ftp://ftp.ieee.org/uploads/press/hoo.
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Includes bibliographical references and index.

Preface. Acknowledgments. Introduction. Mathematical Modeling. Static Analysis of Physiological Systems. Time-Domain Analysis of Linear Control Systems. Frequency-Domain Analysis of Linear Control Systems. Stability Analysis: Linear Approaches. Identification of Physiological Control Systems. Optimization in Physiological Control. Nonlinear Analysis of Physiological Control Systems. Complex Dynamics in Physiological Control Systems. Appendix I: Commonly Used Laplace Transform Pairs. Appendix II: List of MATLAB and SIMULINK Programs/Functions. Index. About the Author.

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Many recently improved medical diagnostic techniques and therapeutic innovations have resulted from physiological systems modeling. This comprehensive book will help undergraduate and graduate students and biomedical scientists to gain a better understanding of how the principles of control theory, systems analysis, and model identification are used in physiological regulation. Ample Simulink? and MATLAB? examples throughout the text and posted at an IEEE FTP site will provide you with a hands-on approach for exploring modeling and analysis of biological control systems. You will learn about classical control theory and its application to physiological systems, and contemporary topics and methodologies shaping bioengineering research today. Discussions on the latest developments in system identification, optimal control, and nonlinear dynamical analysis will keep you up-to-date with recent bioengineering advances. From modeling and stability analysis to feedback control in physiological regulatory mechanisms, Physiological Control Systems provides an in-depth study of key bioengineering principles that is simply unmatched in the field. An Instructor Support FTP site is available from the Wiley editorial department: ftp://ftp.ieee.org/uploads/press/hoo.

Also available in print.

Mode of access: World Wide Web

Description based on PDF viewed 12/21/2015.

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