MTU Cork Library Catalogue

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First principles of discrete systems and digital signal processing / Robert D. Strum, Donald E. Kirk.

By: Strum, Robert D.
Contributor(s): Kirk, Donald E, 1937-.
Material type: materialTypeLabelBookSeries: Addison-Wesley series in electrical engineering.Publisher: Reading, Mass. : Addison-Wesley, c1988Description: xv, 848 p. : ill. ; 25 cm.ISBN: 0201095181 .Subject(s): Signal processing -- Digital techniquesDDC classification: 621.38043
Contents:
Introduction -- Signals and systems -- Linear time-invariant systems -- Frequency response and filters -- Frequency response - a graphical method -- z-transforms -- Discrete fourier transform -- The fast fourier transform -- Nonrecursive filter design -- Recursive filter design -- Structures, state equations and applications.

Enhanced descriptions from Syndetics:

Here is a valuable book for a first undergraduate course in discrete systems and digital signal processing (DSP) and for in-practice engineers seeking a self-study text on the subject. Readers will find the book easy to read, with topics flowing and connecting naturally. Fundamentals and first principles central to most DSP applications are presented through carefully developed, worked out examples and problems. Unlike more theoretically demanding texts, this book does not require a prerequisite course in linear systems theory. The text focuses on problem-solving and developing interrelationships and connections between topics. This emphasis is carried out in a number of innovative features, including organized procedures for filter design and use of computer-based problem-solving methods. Solutions Manual is available only through your Addison-Wesley Sales Specialist.

Includes bibliographical references and index.

Introduction -- Signals and systems -- Linear time-invariant systems -- Frequency response and filters -- Frequency response - a graphical method -- z-transforms -- Discrete fourier transform -- The fast fourier transform -- Nonrecursive filter design -- Recursive filter design -- Structures, state equations and applications.

Table of contents provided by Syndetics

  • 1 Introduction
  • Preview
  • Processing of Speech Signals
  • Processing of Seismic Signals
  • Radar Signal Processing
  • Image Processing
  • Kalman Filtering and Estimators
  • Review
  • References and Other Sources of Information
  • 2 Signals and Systems
  • Preview
  • Types of Signals
  • Sequences Some Basic Sequences
  • Shifted and Special Sequences
  • Exponential and Sinusoidal Sequences
  • General Periodic Sequences
  • Sampling Continuous-Time Sinusoids and the Sampling Theorem
  • Systems and Their Properties
  • Linearity
  • Time-Invariance
  • Linear-Time Invariant (LTI) Systems
  • Stability
  • Causality
  • Approximation of Continuous-Time Processes by Discrete Models
  • Discrete Approximation of Integration
  • Discrete Approximation of Differentiation
  • Review
  • Vocabulary and Important Relations
  • Problems
  • References and Other Sources of Information
  • 3 Linear Time-Invariant Systems
  • Preview
  • Linear Constant-Coefficient Difference Equations
  • The Geometric Series--An Important Relationship
  • Difference Equations for Nth-Order Systems
  • Computer Solution of Difference Equations
  • System Diagrams or Realizations
  • Unit Sample Response
  • Convolution
  • A General Way to Find System Response
  • Computer Evaluation of Convolution
  • Analytical Evaluation of Convolution
  • An Application: Stability and the Unit Sample Response
  • Interconnected Systems
  • Cascade Connection
  • Parallel Connection
  • Initial Condition Response and Stability of LTI Systems
  • Forced and Total Response of LTI Systems
  • Review
  • Vocabulary and Important Relations Problems
  • References and Other Sources of Information
  • 4 Frequency Response and Filters
  • Preview
  • Sinusoidal Steady-State Response of LTI Systems
  • Frequency Response
  • Sinusoidal Steady--State Response--General Statement
  • The Nature of H(Ejq)
  • Computer Evaluation of Frequency Response
  • Frequency Response from the System Difference Equations
  • Filters
  • A Typical Filtering Problem
  • Comparison of Two Filters
  • Ideal Filters
  • Interconnected Systems
  • Review
  • Vocabulary and Important Relations Problems
  • References and Other Sources of Information
  • 5 Frequency Response--A Graphical Method
  • Preview
  • Graphical Concepts
  • Geometric Algorithms for Sketching the Frequency Response
  • Graphical Design of Filters
  • Stability
  • Effects of Poles and Zeros on the Frequency Response
  • Correspondence Between Analog and Digital Frequencies
  • Some Design Problems
  • Review
  • Vocabulary and Important Relations Problems
  • References and Other Sources of Information
  • 6 Z-Transforms
  • Preview
  • Definitions
  • Right-Sided Sequences--Some Transform Pairs
  • Sample (Impulse) Sequence
  • Step Sequence
  • Real Exponential Sequence
  • Complex Exponential Sequence
  • General Oscillatory Sequence
  • Cosine Sequence
  • Properties and Relations
  • Linearity
  • Shifting Property
  • Multiplication by n and Derivatives In z
  • Convolution
  • Transfer Functions
  • Stability
  • Frequency Response Revisited
  • The Evaluation of Inverse Transforms
  • Inverse Transforms from the Definition
  • Inverse Transforms from Long Division
  • Inverse Transforms from Partial Fraction Expansions and Table Look-Up
  • Partial Fraction Expansion--General Statement
  • Checking Partial Frac

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