Details
- Autor(en) / Beteiligte
- Titel
- Introduction to information optics [electronic resource]
- Link zum Volltext
- Beschreibungen/Notizen
- Description based upon print version of record.
- Includes bibliographical references and index.
- Front Cover; Introduction to Information Optics; Copyright Page; Contents; Preface; Chapter 1. Entropy Information and Optics; 1.1. Information Transmission; 1.2. Entropy Information; 1.3. Communication Channel; 1.4. Band-limited Analysis; 1.5. Signal Analysis; 1.6. Trading Information with Entropy; 1.7. Accuracy and Reliability Observation; 1.8. Quantum Mechanical Channel; References; Exercises; Chapter 2. Signal Processing with Optics; 2.1. Coherence Theory of Light; 2.2. Processing under Coherent and Incoherent Illumination; 2.3. Fresnel-Kirchhoff and Fourier Transformation
- 2.4. Fourier Transform Processing2.5. Image Processing with Optics; 2.6. Algorithms for Processing; 2.7. Processing with Photorefractive Optics; 2.8. Processing with Incoherent Light; 2.9. Processing with Neural Networks; References; Exercises; Chapter 3. Communication with Optics; 3.1. Motivation of Fiber-Optic Communication; 3.2. Light Propagation in Optical Fibers; 3.3. Critical Components; 3.4. Fiber-Optic Networks; References; Exercises; Chapter 4. Switching with Optics; 4.1. Figures of Merits for an Optical Switch; 4.2. All-Optical Switches; 4.3. Fast Electro-optic Switches: Modulators
- 4.4. Optical Switching Based on MEMS4.5. Summary; References; Exercises; Chapter 5. Transformation with Optics; 5.1. Huygens-Fresnel Diffraction; 5.2. Fresnel Transform; 5.3. Fourier Transform; 5.4. Wavelet Transform; 5.5. Physical Wavelet Transform; 5.6. Wigner Distribution Function; 5.7. Fractional Fourier Transform; 5.8. Hankel Transform; 5.9. Radon Transform; 5.10. Geometric Transform; 5.11. Hough Transform; References; Exercises; Chapter 6. Interconnection with Optics; 6.1. Introduction; 6.2. Polymer Waveguides; 6.3. Thin-Film Waveguide Couplers
- 6.4. Integration of Thin-Film Photodetectors6.5. Integration of Vertical Cavity Surface-Emitting Lasers (VCSELs); 6.6. Optical Clock Signal Distribution; 6.7. Polymer Waveguide-Based Optical Bus Structure; 6.8. Summary; References; Exercises; Chapter 7. Pattern Recognition with Optics; 7.1. Basic Architectures; 7.2. Recognition by Correlation Detections; 7.3. Polychromatic Pattern Recognition; 7.4. Target Tracking; 7.5. Pattern Recognition Using Composite Filtering; 7.6. Pattern Classification; 7.7. Pattern Recognition with Photorefractive Optics; 7.8. Neural Pattern Recognition; Reference
- ExcerciseChapter 8. Information Storage with Optics; 8.1. Digital Information Storage; 8.2. Upper Limit of Optical Storage Density; 8.3 Optical Storage Media; 8.4. Bit-Pattern Optical Storage; 8.5. Holographic Optical Storage; 8.6. Near Field Optical Storage; 8.7. Concluding Remarks; References; Exercises; Chapter 9. Computing with Optics; 9.1. Introduction; 9.2. Parallel Optical Logic and Architectures; 9.3. Number Systems and Basic Operations; 9.4. Parallel Signed-Digit Arithmetic; 9.5. Conversion between Different Number Systems; 9.6. Optical Implementation; 9.7. Summary; References
- Exercises
- While there are books treating individual topics contained in this book, this will be the first single volume providing a cohesive treatment on this subject as a whole. This goes beyond optical communications in that it includes related topics such as sensing, displays, computing, and data storage.
- English
- Sprache
- Englisch
- Identifikatoren
- ISBN: 1-281-02831-2, 9786611028312, 0-08-050929-0OCLC-Nummer: 191035146Titel-ID: 9925021138906463
- Format
- 1 online resource (749 p.)
- Schlagworte
- Optical communications