Signal Processing Using Optics
Fundamentals, Devices, Architectures, and Applications
Sorozatcím: Johns Hopkins University Applied Physics Laboratory Series in Science & Engineering;
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A termék adatai:
- Kiadó OUP USA
- Megjelenés dátuma 1998. március 12.
- ISBN 9780195084245
- Kötéstípus Keménykötés
- Terjedelem416 oldal
- Méret 242x195x24 mm
- Súly 889 g
- Nyelv angol
- Illusztrációk halftones, numerous line drawings, tables 0
Kategóriák
Rövid leírás:
This textbook covers the basic aspects of optical signal processing at an introductory level, covering the fundamentals, devices, architectures, and prominent applications of optical signal processing. The text aims to provide the student with insight on the underlying mathematical and physical principles, practical understanding of component technology and performance, a grasp of system design and analysis, and familiarity with architectures for selected but
representative applications. It is intended for senior-level undergraduate or first-year graduate students in electrical engineering or applied physics as well as practicing engineers and scientists.
Hosszú leírás:
This textbook covers the basic aspects of otical signal processing at an introductory level, yet it should help the student bridge the gap to current technical literature. It is intnded for senior-level undergraduate or first-year graduate students in the electrical engineering or applied physics as well as practicing engineers and scientists. Although the student or professional should have some exposure to one-dimensional signal processing, optics, and imaging to
make the book self-contained and the necessary background information readily accessible. The text aim is to provide the student with insight on the underlying mathematical and physical principles, practical understanding of component technology and performance, a grasp of system design and analysis,
and familiarity with architectures for selected but representative applications. Problem exercise, selected hints and solution, extensive reference, and MATLAB based modeling ansd simulation tools are included to support the student's exploration of applications and to direct their learning towards the current technical literature. Numerous architectural diagrams are provided to assist in the understanding and visualization of important concepts and their implementation.
Tartalomjegyzék:
Introduction
Two-dimensional linear systems
Fundamental properties
Linear superposition
Convolution and correlation
Two-dimensional Fourier transforms and properties
Rectangular and polar form
Linear coordinate transformation and Fourier theorem
Examples of magnification and rotation
Two dimensional impulse fuctions: properties and Fourier transforms
Elementary images and their Fourier properties
Stochastic processes and nonlinear systems
Basic concepts of stachsatic processes
Fundamental probability density functions
Matched filter derivation and properties of correlation
Nonlinear transformations and operations
Mixing and modulation
Mathematical transforms used in optical signal processing
Overview
Fresnel transform
Hilbert transform
Radon transform
Mellin transform
Wavelet transform
Fundamental properties of light and geometric optics
Overview
Fundamental scalar and vector properties of light
Polarization
Rectilinear glass structures and their properties
Simple lenses and lens combinations
Summary of physical optics
Overview
Coherence and interference
Scalar diffraction theory
Fraunhofer diffraction
Fresnel diffraction
Fourier transform and imaging properties of optical systems
Overview
Effects of lens on a wavefront
Imaging property of lenses
Linear system properties of imaging systems
Pint spread function
Optical trasnfer function
Signal processing analogies for optics
Light sources and detectors
Overview
Laser principles of operations
Laser diode arrays
Output light detectors
Single detectors
Linear and matrix arrays
Optical signal processing requirements
Spatial light modulators
Acousto-optic Bragg cells
Liquid crystal spatial light modulators
Magneto-optic spatial light modulator
Other spatial light modulators
Optical spectrum analysis and correlation
Overview
Time and space integrating architectures
Coherent and incoherent architecture
Spectrum analysis
Space integrating spectrum analyzer
Time integrating spectrum analyzer
Correlation
Incoherent optical correlator architectures
Coherent optical correlator architectures
Image and matched spatial filtering
Overview
VanderLugt filter
Image spatial filtering
Matched spatial filter and binary phase-only correlators
Techniques for circumvention geometric distortions
Spatial multiplexing
Distortion invariant transformations
Angular correlation
Radar signal processing applications
Overview
Radar signal processing
Ambiguity function processing
Synthetic aperture radar
Pattern recognition applications
Overview
Feature extraction
Optical vector-matrix multiplication
Optical neural networks
Appendix A: Mathematical Tables
Appendix B: Annotated Bibliography
Appendix C: Software for Modeling and Visualization
Appendix D: Hints and Solutions to selected problems
References
Index
