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The Resource DSP for MATLAB and LabVIEW, Volume II, Discrete frequency transforms, Forester W. Isen, (electronic resource)
DSP for MATLAB and LabVIEW, Volume II, Discrete frequency transforms, Forester W. Isen, (electronic resource)
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The item DSP for MATLAB and LabVIEW, Volume II, Discrete frequency transforms, Forester W. Isen, (electronic resource) represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in University of Oklahoma Libraries.This item is available to borrow from all library branches.
Resource Information
The item DSP for MATLAB and LabVIEW, Volume II, Discrete frequency transforms, Forester W. Isen, (electronic resource) represents a specific, individual, material embodiment of a distinct intellectual or artistic creation found in University of Oklahoma Libraries.
This item is available to borrow from all library branches.
 Summary
 This book is Volume II of the series DSP for MATLAB and LabVIEW. This volume provides detailed coverage of discrete frequency transforms, including a brief overview of common frequency transforms, both discrete and continuous, followed by detailed treatments of the Discrete Time Fourier Transform (DTFT), the zTransform (including definition and properties, the inverse ztransform, frequency response via ztransform, and alternate filter realization topologies including Direct Form, Direct Form Transposed, Cascade Form, Parallel Form, and Lattice Form), and the Discrete Fourier Transform (DFT) (including Discrete Fourier Series, the DFTIDFT pair, DFT of common signals, bin width, sampling duration, and sample rate, the FFT, the Goertzel Algorithm, Linear, Periodic, and Circular convolution, DFT Leakage, and computation of the Inverse DFT). The entire series consists of four volumes that collectively cover basic digital signal processing in a practical and accessible manner, but which nonetheless include all essential foundation mathematics. As the series title implies, the scripts (of which there are more than 200) described in the text and supplied in code form (available via the internet at http://www.morganclaypool.com/page/isen) will run on both MATLAB and LabVIEW. The text for all volumes contains many examples, and many useful computational scripts, augmented by demonstration scripts and LabVIEW Virtual Instruments (VIs) that can be run to illustrate various signal processing concepts graphically on the user's computer screen. Volume I consists of four chapters that collectively set forth a brief overview of the field of digital signal processing, useful signals and concepts (including convolution, recursion, difference equations, LTI systems, etc), conversion from the continuous to discrete domain and back (i.e., analogtodigital and digitaltoanalog conversion), aliasing, the Nyquist rate, normalized frequency, sample rate conversion, and Mulaw compression, and signal processing principles including correlation, the correlation sequence, the Real DFT, correlation by convolution, matched filtering, simple FIR filters, and simple IIR filters. Chapter 4 of Volume I, in particular, provides an intuitive or "first principle" understanding of how digital filtering and frequency transforms work, preparing the reader for the present volume (Volume II). Volume III of the series covers digital filter design (FIR design using Windowing, Frequency Sampling, and Optimum Equiripple techniques, and Classical IIR design) and Volume IV, the culmination of the series, is an introductory treatment of LMS Adaptive Filtering and applications
 Language
 eng
 Extent
 1 electronic text (xvi, 217 p. : ill.)
 Note

 Part of: Synthesis digital library of engineering and computer science
 Title from PDF t.p. (viewed on January 8, 2009)
 Series from website
 Contents

 The discrete time Fourier transform
 Overview
 In the previous volume
 In this volume
 In this chapter
 Software for use with this book
 Introduction to transform families
 Fourier family (constant unitymagnitude correlators)
 Laplace family (timevaryingmagnitude correlators)
 The DTFT
 Inverse DTFT
 A few properties of the DTFT
 Linearity
 Conjugate symmetry for real x[n]
 Periodicity
 Shift of frequency
 Convolution
 Even and odd components
 Multiplication by a ramp
 Frequency response of an LTI system
 From impulse response
 From difference equation
 References
 Exercises
 The ztransform
 Overview
 Software for use with this book
 Definition & properties
 The ztransform
 The inverse ztransform
 Convergence criteria
 Summary of ROC facts
 Trivial poles and zeros
 Basic properties of the ztransform
 Common ztransforms
 Transfer functions, poles, and zeros
 Pole location and stability
 Conversion from zdomain to time domain
 Difference equation
 Table lookup
 Partial fraction expansion
 Contour integration in the complex plane
 Transient and steadystate responses
 Frequency response from ztransform
 For generalized transfer function
 Relation to DTFT
 Finite impulse response (FIR)
 Infinite impulse response (IIR) single pole
 Cascaded singlepole filters
 Offunitcircle zeros and decaying signals
 Transfer function & filter topology
 Direct form
 Direct form transposed
 Cascade form
 Parallel form
 Lattice form
 References
 Exercises
 The DFT
 Overview
 Software for use with this book
 Discrete Fourier series
 Sampling in the zdomain
 From DFS to DFT
 DFTIDFT pair
 Definitionforward transform (time to frequency)
 Definitioninverse transform (frequency to time)
 Magnitude and phase
 N, scaling constant, and DFT variants
 MathScript implementation
 A few DFT properties
 General considerations and observations
 Bin values
 Periodicity in n and k
 Frequency multiplication in time domain
 Computation of DFT via matrix
 DFT of common signals
 Frequency resolution
 Bin width and sample rate
 The FFT
 Npt DFT from two N/2pt DFTs
 Decimationintime
 Reassembly via butterfly
 Algorithm execution time
 Other algorithms
 The Goertzel algorithm
 Via singlepole
 Using complex conjugate poles
 Magnitude only output
 Linear, periodic, and circular convolution and the DFT
 Cyclic/periodic convolution
 Circular convolution
 DFT convolution theorem
 Linear convolution using the DFT
 Summary of convolution facts
 The overlapadd method
 DFT leakage
 Onbin/offbin: DFT leakage
 Avoiding DFT leakagewindowing
 Inherent windowing by a rectangular window
 A few common window types
 DFT leakage v. window type
 Additional window use
 DTFT via padded DFT
 The inverse DFT (IDFT)
 Computation of IDFT via matrix
 IDFT via DFT
 IDFT phase descrambling
 Phase zeroing
 Phase shifting
 Equalization using the DFT
 References
 Exercises
 Isbn
 9781598298949
 Label
 DSP for MATLAB and LabVIEW, Volume II, Discrete frequency transforms
 Title
 DSP for MATLAB and LabVIEW
 Title number
 Volume II
 Title part
 Discrete frequency transforms
 Statement of responsibility
 Forester W. Isen
 Title variation
 Discrete frequency transforms
 Subject

 Decimationintime (DIT)
 Frequency domain
 Direct form transposed
 Goertzel algorithm
 MATLAB
 Cascade form
 Fast Fourier transform (FFT)
 LabVIEW
 zTransform
 Transformations (Mathematics)
 DSP (Digital Signal Processing)
 Parallel form
 Discrete Time FourierTransform (DTFT)
 Direct form
 Discrete Fourier transform (DFT)
 FIR
 Discrete frequency transform
 IIR
 MathScript
 LabVIEW
 Discrete Fourier series (DFS)
 Lattice form
 MATLAB
 Signal processing  Digital techniques
 Language
 eng
 Summary
 This book is Volume II of the series DSP for MATLAB and LabVIEW. This volume provides detailed coverage of discrete frequency transforms, including a brief overview of common frequency transforms, both discrete and continuous, followed by detailed treatments of the Discrete Time Fourier Transform (DTFT), the zTransform (including definition and properties, the inverse ztransform, frequency response via ztransform, and alternate filter realization topologies including Direct Form, Direct Form Transposed, Cascade Form, Parallel Form, and Lattice Form), and the Discrete Fourier Transform (DFT) (including Discrete Fourier Series, the DFTIDFT pair, DFT of common signals, bin width, sampling duration, and sample rate, the FFT, the Goertzel Algorithm, Linear, Periodic, and Circular convolution, DFT Leakage, and computation of the Inverse DFT). The entire series consists of four volumes that collectively cover basic digital signal processing in a practical and accessible manner, but which nonetheless include all essential foundation mathematics. As the series title implies, the scripts (of which there are more than 200) described in the text and supplied in code form (available via the internet at http://www.morganclaypool.com/page/isen) will run on both MATLAB and LabVIEW. The text for all volumes contains many examples, and many useful computational scripts, augmented by demonstration scripts and LabVIEW Virtual Instruments (VIs) that can be run to illustrate various signal processing concepts graphically on the user's computer screen. Volume I consists of four chapters that collectively set forth a brief overview of the field of digital signal processing, useful signals and concepts (including convolution, recursion, difference equations, LTI systems, etc), conversion from the continuous to discrete domain and back (i.e., analogtodigital and digitaltoanalog conversion), aliasing, the Nyquist rate, normalized frequency, sample rate conversion, and Mulaw compression, and signal processing principles including correlation, the correlation sequence, the Real DFT, correlation by convolution, matched filtering, simple FIR filters, and simple IIR filters. Chapter 4 of Volume I, in particular, provides an intuitive or "first principle" understanding of how digital filtering and frequency transforms work, preparing the reader for the present volume (Volume II). Volume III of the series covers digital filter design (FIR design using Windowing, Frequency Sampling, and Optimum Equiripple techniques, and Classical IIR design) and Volume IV, the culmination of the series, is an introductory treatment of LMS Adaptive Filtering and applications
 Additional physical form
 Also available in print.
 Cataloging source
 CaBNvSL
 Citation source

 Compendex
 INSPEC
 Google scholar
 Google book search
 http://bibfra.me/vocab/lite/collectionName
 Synthesis digital library of engineering and computer science
 http://library.link/vocab/creatorDate
 1949
 http://library.link/vocab/creatorName
 Isen, Forester W.
 Dewey number
 621.3822
 Illustrations
 illustrations
 Index
 no index present
 LC call number
 TK5102.9
 LC item number
 .I8332 2008
 Literary form
 non fiction
 Nature of contents

 dictionaries
 abstracts summaries
 Series statement
 Synthesis lectures on signal processing,
 Series volume
 # 5
 http://library.link/vocab/subjectName

 Signal processing
 Transformations (Mathematics)
 Target audience

 adult
 specialized
 Label
 DSP for MATLAB and LabVIEW, Volume II, Discrete frequency transforms, Forester W. Isen, (electronic resource)
 Note

 Part of: Synthesis digital library of engineering and computer science
 Title from PDF t.p. (viewed on January 8, 2009)
 Series from website
 Color
 multicolored
 Contents
 The discrete time Fourier transform  Overview  In the previous volume  In this volume  In this chapter  Software for use with this book  Introduction to transform families  Fourier family (constant unitymagnitude correlators)  Laplace family (timevaryingmagnitude correlators)  The DTFT  Inverse DTFT  A few properties of the DTFT  Linearity  Conjugate symmetry for real x[n]  Periodicity  Shift of frequency  Convolution  Even and odd components  Multiplication by a ramp  Frequency response of an LTI system  From impulse response  From difference equation  References  Exercises  The ztransform  Overview  Software for use with this book  Definition & properties  The ztransform  The inverse ztransform  Convergence criteria  Summary of ROC facts  Trivial poles and zeros  Basic properties of the ztransform  Common ztransforms  Transfer functions, poles, and zeros  Pole location and stability  Conversion from zdomain to time domain  Difference equation  Table lookup  Partial fraction expansion  Contour integration in the complex plane  Transient and steadystate responses  Frequency response from ztransform  For generalized transfer function  Relation to DTFT  Finite impulse response (FIR)  Infinite impulse response (IIR) single pole  Cascaded singlepole filters  Offunitcircle zeros and decaying signals  Transfer function & filter topology  Direct form  Direct form transposed  Cascade form  Parallel form  Lattice form  References  Exercises  The DFT  Overview  Software for use with this book  Discrete Fourier series  Sampling in the zdomain  From DFS to DFT  DFTIDFT pair  Definitionforward transform (time to frequency)  Definitioninverse transform (frequency to time)  Magnitude and phase  N, scaling constant, and DFT variants  MathScript implementation  A few DFT properties  General considerations and observations  Bin values  Periodicity in n and k  Frequency multiplication in time domain  Computation of DFT via matrix  DFT of common signals  Frequency resolution  Bin width and sample rate  The FFT  Npt DFT from two N/2pt DFTs  Decimationintime  Reassembly via butterfly  Algorithm execution time  Other algorithms  The Goertzel algorithm  Via singlepole  Using complex conjugate poles  Magnitude only output  Linear, periodic, and circular convolution and the DFT  Cyclic/periodic convolution  Circular convolution  DFT convolution theorem  Linear convolution using the DFT  Summary of convolution facts  The overlapadd method  DFT leakage  Onbin/offbin: DFT leakage  Avoiding DFT leakagewindowing  Inherent windowing by a rectangular window  A few common window types  DFT leakage v. window type  Additional window use  DTFT via padded DFT  The inverse DFT (IDFT)  Computation of IDFT via matrix  IDFT via DFT  IDFT phase descrambling  Phase zeroing  Phase shifting  Equalization using the DFT  References  Exercises
 Dimensions
 unknown
 Extent
 1 electronic text (xvi, 217 p. : ill.)
 File format
 multiple file formats
 Form of item
 electronic
 Governing access note
 Abstract freely available; fulltext restricted to subscribers or individual document purchasers
 Isbn
 9781598298949
 Isbn Type
 (electronic bk.)
 Other control number
 10.2200/S000162ED1V01Y200811SPR005
 Other physical details
 digital file.
 Reformatting quality
 access
 Specific material designation
 remote
 System control number

 317996001okla_normanlaw
 (SIRSI)3179960
 (Sirsi) i9781598298949
 (CaBNvSL)gtp00532330
 (OCoLC)299608596
 System details

 Mode of access: World Wide Web
 System requirements: Adobe Acrobat reader
 Label
 DSP for MATLAB and LabVIEW, Volume II, Discrete frequency transforms, Forester W. Isen, (electronic resource)
 Note

 Part of: Synthesis digital library of engineering and computer science
 Title from PDF t.p. (viewed on January 8, 2009)
 Series from website
 Color
 multicolored
 Contents
 The discrete time Fourier transform  Overview  In the previous volume  In this volume  In this chapter  Software for use with this book  Introduction to transform families  Fourier family (constant unitymagnitude correlators)  Laplace family (timevaryingmagnitude correlators)  The DTFT  Inverse DTFT  A few properties of the DTFT  Linearity  Conjugate symmetry for real x[n]  Periodicity  Shift of frequency  Convolution  Even and odd components  Multiplication by a ramp  Frequency response of an LTI system  From impulse response  From difference equation  References  Exercises  The ztransform  Overview  Software for use with this book  Definition & properties  The ztransform  The inverse ztransform  Convergence criteria  Summary of ROC facts  Trivial poles and zeros  Basic properties of the ztransform  Common ztransforms  Transfer functions, poles, and zeros  Pole location and stability  Conversion from zdomain to time domain  Difference equation  Table lookup  Partial fraction expansion  Contour integration in the complex plane  Transient and steadystate responses  Frequency response from ztransform  For generalized transfer function  Relation to DTFT  Finite impulse response (FIR)  Infinite impulse response (IIR) single pole  Cascaded singlepole filters  Offunitcircle zeros and decaying signals  Transfer function & filter topology  Direct form  Direct form transposed  Cascade form  Parallel form  Lattice form  References  Exercises  The DFT  Overview  Software for use with this book  Discrete Fourier series  Sampling in the zdomain  From DFS to DFT  DFTIDFT pair  Definitionforward transform (time to frequency)  Definitioninverse transform (frequency to time)  Magnitude and phase  N, scaling constant, and DFT variants  MathScript implementation  A few DFT properties  General considerations and observations  Bin values  Periodicity in n and k  Frequency multiplication in time domain  Computation of DFT via matrix  DFT of common signals  Frequency resolution  Bin width and sample rate  The FFT  Npt DFT from two N/2pt DFTs  Decimationintime  Reassembly via butterfly  Algorithm execution time  Other algorithms  The Goertzel algorithm  Via singlepole  Using complex conjugate poles  Magnitude only output  Linear, periodic, and circular convolution and the DFT  Cyclic/periodic convolution  Circular convolution  DFT convolution theorem  Linear convolution using the DFT  Summary of convolution facts  The overlapadd method  DFT leakage  Onbin/offbin: DFT leakage  Avoiding DFT leakagewindowing  Inherent windowing by a rectangular window  A few common window types  DFT leakage v. window type  Additional window use  DTFT via padded DFT  The inverse DFT (IDFT)  Computation of IDFT via matrix  IDFT via DFT  IDFT phase descrambling  Phase zeroing  Phase shifting  Equalization using the DFT  References  Exercises
 Dimensions
 unknown
 Extent
 1 electronic text (xvi, 217 p. : ill.)
 File format
 multiple file formats
 Form of item
 electronic
 Governing access note
 Abstract freely available; fulltext restricted to subscribers or individual document purchasers
 Isbn
 9781598298949
 Isbn Type
 (electronic bk.)
 Other control number
 10.2200/S000162ED1V01Y200811SPR005
 Other physical details
 digital file.
 Reformatting quality
 access
 Specific material designation
 remote
 System control number

 317996001okla_normanlaw
 (SIRSI)3179960
 (Sirsi) i9781598298949
 (CaBNvSL)gtp00532330
 (OCoLC)299608596
 System details

 Mode of access: World Wide Web
 System requirements: Adobe Acrobat reader
Subject
 Cascade form
 DSP (Digital Signal Processing)
 Decimationintime (DIT)
 Direct form
 Direct form transposed
 Discrete Fourier series (DFS)
 Discrete Fourier transform (DFT)
 Discrete Time FourierTransform (DTFT)
 Discrete frequency transform
 FIR
 Fast Fourier transform (FFT)
 Frequency domain
 Goertzel algorithm
 IIR
 LabVIEW
 LabVIEW
 Lattice form
 MATLAB
 MATLAB
 MathScript
 Parallel form
 Signal processing  Digital techniques
 Transformations (Mathematics)
 zTransform
Member of
 Synthesis digital library of engineering and computer science
 Synthesis lectures on signal processing (Online), # 5
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