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Signal Processing Using Optics : Fundamentals, Devices, Architectures and Applications - Bradley G. Boone

Signal Processing Using Optics

Fundamentals, Devices, Architectures and Applications


Published: 1st November 1997
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Signal Processing Using Optics covers the fundamental aspects of optical signal processing at an introductory level and also discusses more applied topics, helping students and professionals bridge the gap to the current technical literature. Although readers are expected to have previous knowledge of one-dimensional signals and systems and optics beyond general physics, this self-contained text reviews the essentials of signal processing, optics, and imaging to make necessary background information readily available. It continues on with coverage of devices, architectures, and prominent applications, providing students with insight into the mathematical and physical principles, a practical understanding of component technology and performance, a grasp of system design and analysis, and a familiarity with architectures for selected but representative applications. Ideal for senior-level undergraduate and first year graduate students in electrical engineering and applied physics as well as practicing engineers and scientists, this accessible text also includes problem exercises, selected hints and solutions, extensive references, and MATLAB-based modeling (available via the World Wide Web at http: //www.jhuapl.edu/public/books/OSPbook/firstpage.html). It also offers simulation tools to support students exploration of applications and to direct their learning towards the current technical literature. Numerous architectural diagrams are provided to help students understand and visualize important concepts and their implementation.

Preface Acknowledgments Introduction Bibliography 1. TWO-DIMENSIONAL LINEAR SYSTEMS: 1.1: Fundamental Properties 1.2: Linear Superposition 1.3: Convolution and Correlation 1.4: Two-Dimensional Fourier Transforms and Properties 1.5: Rectangular and Polar Forms 1.6: Linear Coordinate Transformation and Fourier Theorem 1.7: Examples of Magnification and Rotation 1.8: Two-Dimensional Impulse Functions: Properties and Fourier Transforms 1.9: Elementary Images and Their Fourier Properties 2. STOCHASTIC PROCESSES AND NONLINEAR SYSTEMS 2.1: Basic Concepts of Stochastic Processes 2.2: Fundamental Probability Density Functions 2.3: Matched Filter Derivation and Properties of Correlation 2.4: Nonlinear Transformations and Operations 2.5: Mixing and Modulation 3. MATHEMATICAL TRANSFORMS USED IN OPTICAL SIGNAL PROCESSING 3.1: Overview 3.2: Fresnel Transform 3.3: Hilbert Transform 3.4: Radon Transform 3.5: Mellin Transform 3.6: Wavelet Transform 4. FUNDAMENTAL PROPERTIES OF LIGHT AND GEOMETRICAL OPTICS 4.1: Overview 4.2: Fundamental Scalar and Vector Properies of Light 4.3: Polarization 4.4: Rectilinear Glass Structures and Their Properties 4.5: Simple Lenses and Lens Combinations 5. SUMMARY OF PHYSICAL OPTICS 5.1: Overview 5.2: Coherence and Interference 5.3: Scalar Diffraction Theory 5.4: Fraunhofer Diffraction 5.5: Fresnel Diffraction 6. FOURIER TRANSFORM AND IMAGING PROPERTIES OF OPTICAL SYSTEMS 6.1: Overview 6.2: Effect of Lens on a Wavefront 6.3: Fourier Transform Property of a Single Lens 6.4: Imaging Property of Lenses 6.5: Linear System Properties of Imaging Systems 6.6: Point Spread Function 6.7: Optical Transfer Function 6.8: Signal Processing Analogies for Optics 7. LIGHT SOURCES AND DETECTORS 7.1: Overview 7.2: Laser Principles of Operation 7.3: Light Emitting Diodes and Laser Diodes 7.4: Laser Diode Arrays 7.5: Output Light Detectors 7.6: Single detectors 7.7: Linear and Matrix Arrays 7.8: Optical Signal Processing Requirements 8. SPATIAL LIGHT MODULATORS 8.1: Overview 8.2: Acousto-Optic Bragg Cells 8.3: Liquid Crystal Spatial Light Modulators 8.4: Magneto-Optic Spatial Light Modulator 8.5: Other Spatial Light Modulators 9. OPTICAL SPECTRUM ANALYSIS AND CORRELATION 9.1: Overview 9.2: Time- and Space- Integrating Architectures 9.3: Coherent and Incoherent Architectures 9.4: Spectrum Analysis 9.5: Space-Integrating Spectrum Analyzer 9.6: Time integrating specturm analyzer 9.7: Correlation 9.8: Incoherent Optical Correlator Architectures 9.9: Coherent Optical Correlator Architectures 10. IMAGE AND MATCHED SPATIAL FILTERING 10.1: Overview 10.2: VanderLugt Filter 10.3: Image Spatial Filtering 10.4: Matched Spatial Filter and Binary Phase-Only Correlators 10.5: Techniques for Circumventing Geometric Distortions 10.6: Spatial Multiplexing 10.7: Distortion-Invariant Transformations 10.8: Angular Correlation 11. RADAR SIGNAL PROCESSING APPLICATIONS 11.1: Overview 11.2: Radar Signal Processing 11.3: Ambiguity Function Processing 11.4: Synthetic Aperture Radar 12. PATTERN RECOGNITION APPLICATIONS 12.1: Overview 12.2: Feature Extraction 12.3: Matrix-Vector Multiplication 12.4: Optical Neural Networks Each chapter ends with Problem Exercises and a Bibliography Appendix A: Mathematical Tables Appendix B: Annotated Bibliography Appendix C: Software for Modeling and Visualization Appendix D: Hints and Solutions to Selected Problems Index

ISBN: 9780195084245
ISBN-10: 0195084241
Series: Johns Hopkins University/Applied Physics Laboratory Series in Science and Engineering
Audience: Tertiary; University or College
Format: Hardcover
Language: English
Number Of Pages: 416
Published: 1st November 1997
Publisher: Oxford University Press Inc
Country of Publication: US
Dimensions (cm): 24.2 x 19.5  x 2.4
Weight (kg): 0.88