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Quantitative coherent imaging : theory, methods and some applications /

Detalles Bibliográficos
Clasificación:	Libro Electrónico
Autor principal:	Blackledge, J. M. (Jonathan M.)
Formato:	Electrónico eBook
Idioma:	Inglés
Publicado:	London : Academic Press, �1989.
Colección:	Techniques of physics ; 11.
Temas:	Imaging systems. Imagerie (Technique) SCIENCE > Physics > Optics & Light. Imaging systems
Acceso en línea:	Texto completo

Tabla de Contenidos:

Front Cover; Quantitative Coherent Imaging: Theory, Methods and Some Applications; Copyright Page; Preface; Acknowledgements; Table of Contents; Dedication; PART ONE: Mathematical and Computational Background; Chapter 1. Introduction; 1.1 SIGNALS AND IMAGES; 1.2 QUANTITATIVE COHERENT IMAGING; 1.3 BASIC EQUATIONS A N D PROBLEMS; 1.4 RESOLUTION, DISTORTION, FUZZINESS AND NOISE; 1.5 ABOUT THIS BOOK; Chapter 2. Fourier transforms; 2.1 THE DIRAC DELTA FUNCTION; 2.2 THE FOURIER TRANSFORM IN ID; 2.3 CONVOLUTION AND CORRELATION; 2.4 MODULATION AND DEMODULATION.
2.5 THE HILBERT TRANSFORM AND QUADRATURE DETECTION2.6 THE ANALYTIC SIGNAL; 2.7 FILTERS; 2.8 THE FOURIER TRANSFORM IN 2D; 2.9 THE SAMPLING THEOREM AND SINC INTERPOLATION; 2.10 THE DISCRETE FOURIER TRANSFORM; 2.11 THE FAST FOURIER TRANSFORM; 2.12 SOME IMPORTANT PROPERTIES OF THE FFT; SUMMARY OF IMPORTANT RESULTS; FURTHER READING; Chapte 3. Scattering theory; 3.1 GREEN'S FUNCTIONS; 3.2 FIELDS GENERATED BY SOURCES; 3.3 FIELDS GENERATED BY BORN SCATTERERS; 3.4 EXAMPLES OF BORN SCATTERING; 3.5 FIELD EQUATIONS AND WAVE EQUATIONS; SUMMARY OF IMPORTANT RESULTS; FURTHER READING.
PART TWO: Coherent Imaging TechniquesChapter 4. Quantitative imaging of layered media; 4.1 PULSE-ECHO EXPERIMENTS; 4.2 QUANTITATIVE ELECTROMAGNETIC IMAGING OF A LAYERED DIELECTRIC; 4.3 QUANTITATIVE ACOUSTIC IMAGING OF A LAYERED MEDIUM; 4.4 SOME APPLICATIONS; SUMMARY OF IMPORTANT RESULTS; FURTHER READING; Chapter 5. Projection tomography; 5.1 BASIC PRINCIPLES; 5.2 THE RADON TRANSFORM; 5.3 THE POINT SPREAD FUNCTION; 5.4 THE PROJECTION SLICE THEOREM; SUMMARY OF IMPORTANT RESULTS; FURTHER READING; Chapter 6. Diffraction tomography; 6.1 DIFFRACTION TOMOGRAPHY USING CW FIELDS.
6.2 DIFFRACTION TOMOGRAPHY USING PULSED FIELDS6.3 THE DIFFRACTION SLICE THEOREM; 6.4 QUANTITATIVE DIFFRACTION TOMOGRAPHY; SUMMARY OF IMPORTANT RESULTS; FURTHER READING; Chapter 7. Synthetic aperture imaging; 7.1 SYNTHETIC APERTURE RADAR; 7.2 PRINCIPLES OF SAR; 7.3 ELECTROMAGNETIC SCATTERING THEORY FOR SAR; 7.4 POLARIZATION EFFECTS; 7.5 QUANTITATIVE IMAGING WITH SAR; 7.6 SYNTHETIC APERTURE SONAR; SUMMARY OF IMPORTANT RESULTS; FURTHER READING; PART THREE: Data Processing; Chapter 8. Deconvolution I: Linear restoration; 8.1 THE LEAST SQUARES METHOD AND THE ORTHOGONALITY PRINCIPLE.
8.2 THE INVERSE FILTER8.3 THE WEINER FILTER; 8.4 THE POWER SPECTRUM EQUALIZATION FILTER; 8.5 THE MATCHED FILTER; 8.6 CONSTRAINED DECONVOLUTION; 8.7 A LINEAR DECONVOLUTION PROGRAM: 2D WEINER FILTER; SUMMARY OF IMPORTANT RESULTS; FURTHER READING; Chapter 9. Deconvolution II : Nonlinear restoration; 9.1 BAYES RULE AND BAYESIAN ESTIMATION; 9.2 MAXIMUM LIKELIHOOD FILTER; 9.3 MAXIMUM A POSTERIORI FILTER; 9.4 THE MAXIMUM ENTROPY FILTER; 9.6 BLIND DECONVOLUTION; SUMMARY OF IMPORTANT RESULTS; FURTHER READING; Chapter 10. Deconvolution III : Super resolution.

Quantitative coherent imaging : theory, methods and some applications /

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