MARC details
000 -LEADER |
fixed length control field |
10673cam a2200325Ii 4500 |
005 - DATE AND TIME OF LATEST TRANSACTION |
control field |
20220601145457.0 |
008 - FIXED-LENGTH DATA ELEMENTS--GENERAL INFORMATION |
fixed length control field |
220127s2022 sz b 000 0 eng d |
011 ## - LINKING LIBRARY OF CONGRESS CONTROL NUMBER [OBSOLETE] |
Local cataloguing issues note |
Z3950 Direct Search: Record 2 of 4 |
011 ## - LINKING LIBRARY OF CONGRESS CONTROL NUMBER [OBSOLETE] |
Local cataloguing issues note |
Z9350 Search Query @attr 1=7 "9783030769468" |
011 ## - LINKING LIBRARY OF CONGRESS CONTROL NUMBER [OBSOLETE] |
Local cataloguing issues note |
MARC Score : 10850(19600) : OK |
020 ## - INTERNATIONAL STANDARD BOOK NUMBER |
International Standard Book Number |
3030769461 |
Qualifying information |
hardback |
020 ## - INTERNATIONAL STANDARD BOOK NUMBER |
International Standard Book Number |
9783030769468 |
Qualifying information |
hardback |
035 ## - SYSTEM CONTROL NUMBER |
System control number |
(OCoLC)1293882863 |
040 ## - CATALOGING SOURCE |
Original cataloging agency |
ABC |
Language of cataloging |
eng |
Description conventions |
rda |
Transcribing agency |
ABC |
Modifying agency |
OCLCO |
-- |
LEATE |
-- |
OCLCF |
-- |
Z5A |
082 04 - DEWEY DECIMAL CLASSIFICATION NUMBER |
Classification number |
621.3822 |
Edition number |
23 |
099 ## - LOCAL FREE-TEXT CALL NUMBER (OCLC) |
Classification number |
621.3822 MOI |
100 1# - MAIN ENTRY--PERSONAL NAME |
Personal name |
Moir, Tom J., |
Relator term |
author. |
245 10 - TITLE STATEMENT |
Title |
Rudiments of signal processing and systems / |
Statement of responsibility, etc. |
Tom J. Moir. |
264 #1 - PRODUCTION, PUBLICATION, DISTRIBUTION, MANUFACTURE, AND COPYRIGHT NOTICE |
Place of production, publication, distribution, manufacture |
Cham, Switzerland : |
Name of producer, publisher, distributor, manufacturer |
Springer, |
Date of production, publication, distribution, manufacture, or copyright notice |
[2022] |
300 ## - PHYSICAL DESCRIPTION |
Extent |
vi-xiv, 452 pages : |
Other physical details |
illustrations ; |
Dimensions |
24 cm |
336 ## - CONTENT TYPE |
Content type term |
text |
Content type code |
txt |
Source |
rdacontent |
337 ## - MEDIA TYPE |
Media type term |
unmediated |
Media type code |
n |
Source |
rdamedia |
338 ## - CARRIER TYPE |
Carrier type term |
volume |
Carrier type code |
nc |
Source |
rdacarrier |
504 ## - BIBLIOGRAPHY, ETC. NOTE |
Bibliography, etc. note |
Includes bibliographical references. |
505 00 - FORMATTED CONTENTS NOTE |
Miscellaneous information |
1. |
Title |
Introduction and Basic Signal Properties -- |
Miscellaneous information |
1.1. |
Title |
Brief History of the Subject from a Personal Perspective -- |
Miscellaneous information |
1.2. |
Title |
Basic Signals and Properties -- |
Miscellaneous information |
1.3. |
Title |
Signal Operations -- |
Miscellaneous information |
1.4. |
Title |
Signal Symmetry -- |
Miscellaneous information |
1.4.1. |
Title |
Writing Any Signal as the Sum of Even and Odd Signals -- |
Miscellaneous information |
1.5. |
Title |
Causal and Non-causal Signals -- |
Miscellaneous information |
1.6. |
Title |
Signals of Special Importance -- |
Miscellaneous information |
2. |
Title |
Dynamic Systems Introduction -- |
Miscellaneous information |
2.1. |
Title |
Definition of a Linear System -- |
Miscellaneous information |
2.1.1. |
Title |
Linear System Definition -- |
Miscellaneous information |
2.1.2. |
Title |
Examples of Linear and Nonlinear Systems -- |
Miscellaneous information |
2.2. |
Title |
Definition of Time-Invariant System -- |
Miscellaneous information |
2.2.1. |
Title |
Examples of Time-Invariance -- |
Miscellaneous information |
2.3. |
Title |
Linear Time Invariant (LTI) Systems -- |
Miscellaneous information |
2.4. |
Title |
Laplace Transforms -- |
Miscellaneous information |
2.4.1. |
Title |
Laplace Transform of Common Signals -- |
Miscellaneous information |
2.4.2. |
Title |
Laplace Transform of a First Derivative -- |
Miscellaneous information |
2.4.3. |
Title |
Laplace Transform of a Second Derivative -- |
Miscellaneous information |
2.4.4. |
Title |
Laplace Transform of a System and Its Transfer-Function -- |
Miscellaneous information |
2.4.5. |
Title |
Table of Laplace Transforms -- |
Miscellaneous information |
2.4.6. |
Title |
Multiple Connected Systems -- |
Miscellaneous information |
2.4.7. |
Title |
Example of Step Response, First-Order System -- |
Miscellaneous information |
2.4.8. |
Title |
Higher Order Systems -- |
Miscellaneous information |
2.5. |
Title |
Impulse Response -- |
Miscellaneous information |
3. |
Title |
Further Introductory Topics in Signals and Systems -- |
Miscellaneous information |
3.1. |
Title |
Convolution Introduction -- |
Miscellaneous information |
3.1.1. |
Title |
Examples of Convolution -- |
Miscellaneous information |
3.2. |
Title |
Convolution by Parts (or Piecewise Convolution) -- |
Miscellaneous information |
3.2.1. |
Title |
Example 1. Convolution by Parts -- |
Miscellaneous information |
3.2.2. |
Title |
Example 2. Convolution by Parts -- |
Miscellaneous information |
3.2.3. |
Title |
Example 3. Pulse of Duration 1 s Applied to an RC Network -- |
Miscellaneous information |
3.3. |
Title |
Heaviside Piecewise Laplace Transform Method -- |
Miscellaneous information |
3.3.1. |
Title |
Example of Heaviside Laplace Method for an RC Circuit -- |
Miscellaneous information |
3.4. |
Title |
Laplace Transform of Convolution -- |
Miscellaneous information |
3.5. |
Title |
Stability of LTI Systems -- |
Miscellaneous information |
3.5.1. |
Title |
Introduction to Poles and Zeros of Transfer Functions -- |
Miscellaneous information |
3.5.2. |
Title |
Final Value Theorem in Laplace Transforms -- |
Miscellaneous information |
4. |
Title |
Frequency-Domain Properties of Signals -- |
Miscellaneous information |
4.1. |
Title |
Fourier Series for Periodic Waveforms -- |
Miscellaneous information |
4.1.1. |
Title |
Example 1. A Square Wave with Even Symmetry -- |
Miscellaneous information |
4.1.2. |
Title |
Half-Range Fourier Series -- |
Miscellaneous information |
4.1.3. |
Title |
Example 2. A Square Wave Being Neither Even nor Odd Symmetry -- |
Miscellaneous information |
4.1.4. |
Title |
Example of an Even Triangular Waveform -- |
Miscellaneous information |
4.1.5. |
Title |
Fourier Series of Rectified Cosine Waveform -- |
Miscellaneous information |
4.2. |
Title |
Complex Fourier Series -- |
Miscellaneous information |
4.2.1. |
Title |
Example: Square Wave in Complex Fourier Form -- |
Miscellaneous information |
4.2.2. |
Title |
Complex Fourier Series of a Triangular Waveform -- |
Miscellaneous information |
4.2.3. |
Title |
Complex Fourier Series of an Impulse Train -- |
Miscellaneous information |
4.2.4. |
Title |
More on Square Waves -- |
Miscellaneous information |
4.3. |
Title |
The Fourier Transform -- |
Miscellaneous information |
4.3.1. |
Title |
The Ideal Filter -- |
Miscellaneous information |
4.3.2. |
Title |
Transforms of Common Signals -- |
Miscellaneous information |
4.3.3. |
Title |
Some Properties of the FT -- |
Miscellaneous information |
4.3.4. |
Title |
Table of Common Fourier Transforms -- |
Miscellaneous information |
4.4. |
Title |
Parseval's Theorem -- |
Miscellaneous information |
4.4.1. |
Title |
Example Using Parseval's Theorem -- |
Miscellaneous information |
5. |
Title |
Sampling of Signals and Discrete Mathematical Methods -- |
Miscellaneous information |
5.1. |
Title |
The Sampling Theorem -- |
Miscellaneous information |
5.2. |
Title |
Zero-Order Hold (ZOH) -- |
Miscellaneous information |
5.3. |
Title |
Aliasing of Signals and Prevention -- |
Miscellaneous information |
5.3.1. |
Title |
Anti-Aliasing Filtering -- |
Miscellaneous information |
5.4. |
Title |
The Z-Transform -- |
Miscellaneous information |
5.4.1. |
Title |
Z-Transforms of Common Signals -- |
Miscellaneous information |
5.4.2. |
Title |
Table of Unilateral Z-Transforms -- |
Miscellaneous information |
5.4.3. |
Title |
Inverse Z-Transforms -- |
Miscellaneous information |
5.4.4. |
Title |
The Bilateral Z-Transform -- |
Miscellaneous information |
5.4.5. |
Title |
Discrete-Time Final Value Theorem -- |
Miscellaneous information |
5.5. |
Title |
Finite Difference Equations -- |
Miscellaneous information |
5.5.1. |
Title |
Steady-State Output of a Difference Equation -- |
Miscellaneous information |
6. |
Title |
Properties of Discrete-Time Systems and Signals -- |
Miscellaneous information |
6.1. |
Title |
Stability of Discrete-Time Systems -- |
Miscellaneous information |
6.2. |
Title |
Impulse Response and Convolution -- |
Miscellaneous information |
6.2.1. |
Title |
Examples of Discrete-Time Convolution -- |
Miscellaneous information |
6.2.2. |
Title |
Z-Transform of Discrete-Time Convolution -- |
Miscellaneous information |
6.3. |
Title |
Frequency Response of Discrete-Time Systems -- |
Miscellaneous information |
6.3.1. |
Title |
Example: Calculation of Frequency Response -- |
Miscellaneous information |
6.3.2. |
Title |
Example: Frequency Response of a Finite-Impulse Response Filter (FIR Filter) -- |
Miscellaneous information |
6.3.3. |
Title |
Design of a Simple Digital Notch Filter -- |
Miscellaneous information |
6.4. |
Title |
The Discrete-Time Fourier Transform (DTFT) -- |
Miscellaneous information |
6.4.1. |
Title |
DTFT of a Delayed Impulse by m Samples -- |
Miscellaneous information |
6.4.2. |
Title |
DTFT of a Geometric Decay -- |
Miscellaneous information |
6.4.3. |
Title |
DTFT of a Delayed Signal -- |
Miscellaneous information |
6.4.4. |
Title |
DTFT of a Discrete-Time Pulse -- |
Miscellaneous information |
6.4.5. |
Title |
DTFT Properties -- |
Miscellaneous information |
7. |
Title |
A More Complete Picture -- |
Miscellaneous information |
7.1. |
Title |
Link Between Various Methods -- |
Miscellaneous information |
7.2. |
Title |
Conversion of G(s) to G(Z) -- |
Miscellaneous information |
7.2.1. |
Title |
Example of Using the Bilinear Transform or Trapezoidal Integration -- |
Miscellaneous information |
7.3. |
Title |
Frequency Warping of the Bilinear Transform -- |
Miscellaneous information |
7.4. |
Title |
Impulse Invariance Method -- |
Miscellaneous information |
7.5. |
Title |
Analogue and Digital Lowpass Butterworth IIR Filters -- |
Miscellaneous information |
7.6. |
Title |
Using the Z-Transform Tables Directly -- |
Miscellaneous information |
7.7. |
Title |
Pole-Zero Mapping or Matched Z-Transform Method -- |
Miscellaneous information |
7.8. |
Title |
Implementing Difference Equations -- |
Miscellaneous information |
7.9. |
Title |
The Discrete Fourier Transform (DFT) -- |
Miscellaneous information |
7.9.1. |
Title |
DFT Example 1 -- |
Miscellaneous information |
7.9.2. |
Title |
DFT Example 2 -- |
Miscellaneous information |
7.9.3. |
Title |
DFT Example 3. Inverse DFT of an Impulse in the Frequency Domain -- |
Miscellaneous information |
7.9.4. |
Title |
DFT of a Cosine Fcos 2πn Nko , n =0,1,2 ... N −1 -- |
Miscellaneous information |
7.9.5. |
Title |
Matrix Form of the DFT -- |
Miscellaneous information |
7.10. |
Title |
The Fast Fourier Transform (FFT) -- |
Miscellaneous information |
7.10.1. |
Title |
Spectral Leakage and Windowing -- |
Miscellaneous information |
8. |
Title |
FIR Filter Design -- |
Miscellaneous information |
8.1. |
Title |
Definition of Linear Phase -- |
Miscellaneous information |
8.2. |
Title |
Frequency Sampling Method of FIR Filter Design -- |
Miscellaneous information |
8.2.1. |
Title |
Example: Design a Lowpass Filter with a Passband Frequency of One Quarter Sampling Frequency -- |
Miscellaneous information |
8.2.2. |
Title |
Example: Design of a Bandpass Filter -- |
Miscellaneous information |
8.2.3. |
Title |
Example. Design of an FIR Band Limited Differentiator -- |
Miscellaneous information |
8.2.4. |
Title |
Z-Transform of IIR Frequency Sampling Filters -- |
Miscellaneous information |
8.3. |
Title |
Interpolation Method of FIR Design -- |
Miscellaneous information |
8.4. |
Title |
Outline of Optimal Design of FIR Filters -- |
Miscellaneous information |
9. |
Title |
State-Space Method of System Modelling -- |
Miscellaneous information |
9.1. |
Title |
Motivation -- |
Miscellaneous information |
9.2. |
Title |
Realizations -- |
Miscellaneous information |
9.3. |
Title |
Solution of the State Equation -- |
Miscellaneous information |
9.4. |
Title |
Poles of the State-Space System -- |
Miscellaneous information |
9.5. |
Title |
State-Space Descriptions with Zeros -- |
Miscellaneous information |
9.6. |
Title |
Controllability and Observability -- |
Miscellaneous information |
9.7. |
Title |
Discrete-Time State-Space -- |
Miscellaneous information |
9.8. |
Title |
Similarity Transformations -- |
Miscellaneous information |
9.9. |
Title |
States as Measurable Signals -- |
Miscellaneous information |
9.10. |
Title |
Conversion from Continuous to Discrete Time State-Space -- |
Miscellaneous information |
10. |
Title |
Toeplitz Convolution Matrix Method -- |
Miscellaneous information |
10.1. |
Title |
Preliminaries -- |
Miscellaneous information |
10.2. |
Title |
LTT Matrix Properties for Dynamic Systems -- |
Miscellaneous information |
10.3. |
Title |
Inverse of a LTT Matrix Using Two FFTs -- |
Miscellaneous information |
11. |
Title |
FIR Wiener Filters and Random Signals -- |
Miscellaneous information |
11.1. |
Title |
Motivation -- |
Miscellaneous information |
11.2. |
Title |
Mathematical Preliminaries -- |
Miscellaneous information |
11.2.1. |
Title |
Autocovariance or Autocorrelation -- |
Miscellaneous information |
11.2.2. |
Title |
Autoregressive (AR) Time-Series Model -- |
Miscellaneous information |
11.2.3. |
Title |
Moving Average Time-Series Model -- |
Miscellaneous information |
11.2.4. |
Title |
Autoregressive Moving Average Time-Series Model -- |
Miscellaneous information |
11.2.5. |
Title |
Colouring by Filtering White Noise -- |
Miscellaneous information |
11.2.6. |
Title |
Contour Integration of Laurent Series -- |
Miscellaneous information |
11.2.7. |
Title |
Vectors and Random Signals -- |
Miscellaneous information |
11.2.8. |
Title |
Differentiation of Vector Products -- |
Miscellaneous information |
11.3. |
Title |
The FIR Wiener Filtering Problem -- |
Miscellaneous information |
11.3.1. |
Title |
FIR Wiener Filter Example with Additive White Noise -- |
Miscellaneous information |
11.3.2. |
Title |
FIR Wiener Filter Improvements -- |
Miscellaneous information |
11.4. |
Title |
The FIR Smoothing and Prediction Problem -- |
Miscellaneous information |
12. |
Title |
IIR Wiener Filtering, Smoothing and Prediction -- |
Miscellaneous information |
12.1. |
Title |
Preliminaries and Statement of Problem -- |
Miscellaneous information |
12.2. |
Title |
The IIR Wiener Filter -- |
Miscellaneous information |
12.2.1. |
Title |
Wiener Filter Example 12.2.2 Innovations Form of the Wiener Filter -- |
Miscellaneous information |
12.2.3. |
Title |
The Smoothing and Prediction Problems -- |
Miscellaneous information |
12.3. |
Title |
Optimal Wiener IIR Filter, Smoother and Predictor for Additive Coloured Noise -- |
Miscellaneous information |
12.3.1. |
Title |
Optimal Coloured Noise Smoother -- |
Miscellaneous information |
12.3.2. |
Title |
Optimal Coloured Noise Predictor -- |
Miscellaneous information |
13. |
Title |
FIR Wiener Filters Using Lower Triangular Toeplitz Matrices -- |
Miscellaneous information |
13.1. |
Title |
Preliminaries -- |
Miscellaneous information |
13.2. |
Title |
LTT Model Description -- |
Miscellaneous information |
13.3. |
Title |
The Estimation Problem -- |
Miscellaneous information |
13.3.1. |
Title |
Estimation Error -- |
Miscellaneous information |
13.3.2. |
Title |
Spectral Factorization of Toeplitz Matrices -- |
Miscellaneous information |
13.3.3. |
Title |
Optimal Filter, Smoother or Predictor -- |
Miscellaneous information |
13.4. |
Title |
The Noncausal Toeplitz Filtering Solution -- |
Miscellaneous information |
14. |
Title |
Adaptive Filters -- |
Miscellaneous information |
14.1. |
Title |
Overview and Motivation -- |
Miscellaneous information |
14.2. |
Title |
The Least-Mean Squares (LMS) Method -- |
Miscellaneous information |
14.3. |
Title |
LMS for Wiener Estimators -- |
Miscellaneous information |
14.4. |
Title |
Choice of Step Size and Normalized LMS -- |
Miscellaneous information |
14.5. |
Title |
Adaptive Noise Cancellation -- |
Miscellaneous information |
14.5.1. |
Title |
Example with Noisy Speech -- |
Miscellaneous information |
14.6. |
Title |
Adaptive Noise Cancellation, Method -- |
Miscellaneous information |
14.6.1. |
Title |
Example with Noisy Speech -- |
Miscellaneous information |
14.7. |
Title |
Two Input Beamformer -- |
Miscellaneous information |
14.8. |
Title |
The Symmetric Adaptive Decorrelator (SAD) -- |
Miscellaneous information |
14.8.1. |
Title |
Example of Two Mixed Signals -- |
Miscellaneous information |
14.9. |
Title |
Independent Component Analysis. (ICA), Some Brief Notes -- |
Miscellaneous information |
15. |
Title |
Other Common Recursive Estimation Methods -- |
Miscellaneous information |
15.1. |
Title |
Motivation -- |
Miscellaneous information |
15.2. |
Title |
The Recursive Least Squares (RLS) Method -- |
Miscellaneous information |
15.3. |
Title |
The Kalman Filter -- |
Miscellaneous information |
15.3.1. |
Title |
Kalman Filter Example 15.4 The Kalman Filter Used in System Identification -- |
Miscellaneous information |
15.4.1. |
Title |
Illustrative Example 15.5 The LMS Algorithm with Optimal Gains -- |
Miscellaneous information |
15.5.1. |
Title |
Newtons Method -- |
Miscellaneous information |
15.5.2. |
Title |
White Driving Noise Case -- |
Miscellaneous information |
15.6. |
Title |
LMS with Coloured Driving Noise. Toeplitz Based LMS. |
520 ## - SUMMARY, ETC. |
Summary, etc. |
This book is intended to be a little different from other books in its coverage. There are a great many digital signal processing (DSP) books and signals and systems books on the market. Since most undergraduate courses begin with signals and systems and then move on in later years to DSP, I felt a need to combine the two into one book that was concise yet not too overburdening. This means that students need only purchase one book instead of two and at the same time see the flow of knowledge from one subject into the next. Like the rudiments of music, it starts at the very beginning with some elementary knowledge and builds on it chapter by chapter to advanced work by chapter 15. I have been teaching now for 38 years and always think it necessary to credit the pioneers of the subjects we teach and ask the question how did we get to this present stage in technological achievement. Therefore, in Chapter 1 I have given a concise history trying to not sway too much away from the subject area. This is followed by the rudimentary theory in increasing complexity. It has already been taught successfully to a class at Auckland University of Technology New Zealand. |
588 ## - SOURCE OF DESCRIPTION NOTE |
Source of description note |
Machine converted from non-AACR2, ISBD-encoded source record. |
650 #0 - SUBJECT ADDED ENTRY--TOPICAL TERM |
Topical term or geographic name entry element |
Signal processing |
General subdivision |
Digital techniques. |
9 (RLIN) |
324025 |
942 ## - ADDED ENTRY ELEMENTS (KOHA) |
Koha item type |
Book |
Suppress in OPAC |
No |