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Author Blackledge, J. M. (Jonathan M.)

Title Digital image processing : mathematical and computational methods / Jonathan M. Blackledge.

Publication Info. Chichester : Horwood Publishing, 2005.

Copies

Location Call No. OPAC Message Status
 Axe Elsevier ScienceDirect Ebook  Electronic Book    ---  Available
Description 1 online resource (xxvii, 797 pages) : illustrations
text txt rdacontent
computer c rdamedia
online resource cr rdacarrier
text file
PDF
Series Woodhead Publishing Series in Electronic and Optical Materials
Woodhead Publishing series in electronic and optical materials.
Note Includes index.
Print version record.
Summary This authoritative text (the second part of a complete MSc course) provides mathematical methods required to describe images, image formation and different imaging systems, coupled with the principle techniques used for processing digital images. It is based on a course for postgraduates reading physics, electronic engineering, telecommunications engineering, information technology and computer science. This book relates the methods of processing and interpreting digital images to the 'physics' of imaging systems. Case studies reinforce the methods discussed, with examples of current research themes. Provides mathematical methods required to describe images, image formation and different imaging systemsOutlines the principle techniques used for processing digital imagesRelates the methods of processing and interpreting digital images to the 'physics' of imaging systems.
Contents Cover; Dedication; ABOUT THE AUTHOR; DIGITAL IMAGE PROCESSING:Mathematical and Computational Methods; Copyright; Foreword; Preface; Acknowledgements; Notation; Glossary; Contents; Introduction; Imaging Science; Signals and Images; Image Formation; Image Information; Image Analysis; Digital Image Processing; Fundamental Problems; About this Book; Summary of Important Results; Further Reading; Part I Mathematical and Computational Background; Chapter 1 Vector Fields; 1.1 Scalar Fields; 1.2 Vector Fields; 1.3 The Divergence Theorem; 1.4 Summary of Important Results; 1.5 Further Reading.
Chapter 2 2D Fourier Theory2.1 The 2D Complex Fourier Series; 2.2 The 2D Delta Function; 2.3 The 2D Fourier Transform; 2.4 Physical Representation; 2.5 The Spectrum; 2.6 Definitions and Notation; 2.7 Some Important Results; 2.8 Some Important Theorems; 2.9 Convolution and Correlation; 2.10 Convolution and Correlation Theorems; 2.11 Other Integral Transforms; 2.12 Discussion; 2.13 Summary of Important Results; 2.14 Further Reading; Chapter 3 The 2D DFT, FFT and FIR Filter; 3.1 The Discrete Fourier Transform; 3.2 The Sampling Theorem; 3.3 The Discrete Spectrum of a Digital Image.
3.4 The Fast Fourier Transform3.5 The Imaging Equation and Convolution in2D; 3.6 The Finite Impulse Response Filter; 3.7 Origin of the Imaging Equation; 3.8 Summary of Important Results; 3.9 Further Reading; Chapter 4 Field and Wave Equations; 4.1 The Langevin Equation; 4.2 Maxwell's Equations; 4.3 General Solution to Maxwell's (Micro-scopic) Equations; 4.4 The Macroscopic Maxwell's Equations; 4.5 EM Waves in a Homogeneous Medium; 4.6 EM Waves in an Inhomogeneous Medium; 4.7 Elastic Field Equations; 4.8 Inhomogeneous Elastic Wave Equation; 4.9 Acoustic Field Equations; 4.10 Discussion.
4.11 Summary of Important Results4.12 Further Reading; Chapter 5 Green Functions; 5.1 Overview; 5.2 Introduction to the Green Function; 5.3 The Time Independent Wave Operator; 5.4 Wavefields Generated by Sources; 5.5 Time Dependent Green Function; 5.6 Time Dependent Sources; 5.7 Green Function Solution to Maxwell'sEquation; 5.8 The Diffusion Equation; 5.9 Green Function Solution to the DiffusionEquation; 5.10 The Laplace and Poisson Equations; 5.11 Discussion; 5.12 Summary of Important Results; 5.13 Further Reading; Problems: Part I; Part II Imaging Systems Modelling.
Chapter 6 Scattering Theory6.1 The Schrodinger and Helmholtz Equations; 6.2 Solution to the Helmholtz Equation; 6.3 Examples of Born Scattering; 6.4 Other Approximation Methods; 6.5 The Born Series; 6.6 Inverse Scattering; 6.7 Surface Scattering Theory; 6.8 Summary of Important Results; 6.9 Further Reading; Chapter 7 Imaging of Layered Media; 7.1 Pulse-Echo Imaging; 7.2 EM Imaging of a Layered Dielectric; 7.3 Acoustic Imaging of a Layered Material; 7.4 Side-band Systems and Demodulation; 7.5 Some Applications; 7.6 Case Study: Imaging the Ionosphere; 7.7 Case Study: Radar Plasma Screening.
Subject Image processing -- Digital techniques -- Mathematical models.
Image processing -- Digital techniques -- Data processing.
Traitement d'images -- Techniques numériques -- Modèles mathématiques.
Traitement d'images -- Techniques numériques -- Informatique.
TECHNOLOGY & ENGINEERING -- Mechanical.
Image processing -- Digital techniques -- Data processing
Image processing -- Digital techniques -- Mathematical models
Other Form: Print version: Blackledge, J.M. (Jonathan M.). Digital image processing 1898563497 (DLC) 2007360598 (OCoLC)64097148
ISBN 9780857099464 (electronic bk.)
0857099469 (electronic bk.)
1898563497
9781898563495
Standard No. CHNEW 001011865
DEBBG BV042315308
DEBSZ 414271572
DEBSZ 431642850
GBVCP 813166543

 
    
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