System Identification  A Frequency Domain Approach, Second Edition Cover

System Identification: A Frequency Domain Approach, Second Edition

ISBN/ASIN: 9780470640371,9781118287422 | 2012 | English | pdf | 774/774 pages | 19.0 Mb
Publisher: Wiley-IEEE Press | Author: Rik Pintelon, Johan Schoukens(auth.)

System identification is a general term used to describe mathematical tools and algorithms that build dynamical models from measured data. Used for prediction, control, physical interpretation, and the designing of any electrical systems, they are vital in the fields of electrical, mechanical, civil, and chemical engineering.

Focusing mainly on frequency domain techniques, System Identification: A Frequency Domain Approach, Second Edition also studies in detail the similarities and differences with the classical time domain approach. It high??lights many of the important steps in the identification process, points out the possible pitfalls to the reader, and illustrates the powerful tools that are available.

Readers of this Second Editon will benefit from:

MATLAB software support for identifying multivariable systems that is freely available at the website http://booksupport.wiley.com

State-of-the-art system identification methods for both time and frequency domain data

New chapters on non-parametric and parametric transfer function modeling using (non-)period excitations

Numerous examples and figures that facilitate the learning process

A simple writing style that allows the reader to learn more about the theo??retical aspects of the proofs and algorithms

Unlike other books in this field, System Identification, Second Edition is ideal for practicing engineers, scientists, researchers, and both master's and PhD students in electrical, mechanical, civil, and chemical engineering.
Content:
Chapter 1 An Introduction to Identification (pages 1–31):
Chapter 2 Measurement of Frequency Response Functions – Standard Solutions (pages 33–72):
Chapter 3 Frequency Response Function Measurements in the Presence of Nonlinear Distortions (pages 73–118):
Chapter 4 Detection, Quantification, and Qualification of Nonlinear Distortions in FRF Measurements (pages 119–150):
Chapter 5 Design of Excitation Signals (pages 151–175):
Chapter 6 Models of Linear Time?Invariant Systems (pages 177–224):
Chapter 7 Measurement of Frequency Response Functions – The Local Polynomial Approach (pages 225–278):
Chapter 8 An Intuitive Introduction to Frequency Domain Identification (pages 279–284):
Chapter 9 Estimation with Known Noise Model (pages 285–382):
Chapter 10 Estimation with Unknown Noise Model – Standard Solutions (pages 383–429):
Chapter 11 Model Selection and Validation (pages 431–461):
Chapter 12 Estimation with Unknown Noise Model – The Local Polynomial Approach (pages 463–496):
Chapter 13 Basic Choices in System Identification (pages 497–530):
Chapter 14 Guidelines for the User (pages 531–544):
Chapter 15 Some Linear Algebra Fundamentals (pages 545–566):
Chapter 16 Some Probability and Stochastic Convergence Fundamentals (pages 567–625):
Chapter 17 Properties of Least Squares Estimators with Deterministic Weighting (pages 627–650):
Chapter 18 Properties of Least Squares Estimators with Stochastic Weighting (pages 651–663):
Chapter 19 Identification of Semilinear Models (pages 665–698):
Chapter 20 Identification of Invariants of (Over)Parameterized Models (pages 699–710):

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