Details

Autor(en) / Beteiligte

• Kuo, Chung J.,
• Tsai, Meng Hua,

Titel

Three-dimensional holographic imaging

Beschreibungen/Notizen

• Description based upon print version of record.
• Includes bibliographical references and index.
• THREE-DIMENSIONAL HOLOGRAPHIC IMAGING; CONTRIBUTORS; CONTENTS; Preface; 1. Introduction; 2. Holograms of Real and Virtual Point Trajectories; 2.1. Introduction; 2.2. Early Work; 2.2.1. Brightness Problem; 2.2.2. Longitudinal Motion Problem; 2.3. Mathematical Analysis; 2.3.1. Longitudinal Translation with Constant Velocity; 2.3.2. Longitudinal Vibration; 2.3.3. Transverse Motion with Constant Velocity; 2.3.4. Circular Motion in a Transverse Plane; 2.4. Analogies to Coded Aperture Imaging; 2.5. Synthetic Recording; 2.6. Discussion; 2.7. Conclusions; References
• 3. Self-Stabilized Real-Time Holographic Recording3.1. Introduction; 3.2. Fringe Stabilization System; 3.2.1. Holographic Setup; 3.2.2. Wave Mixing; 3.2.3. Synchronous Detection; 3.2.4. Feedback Optoelectronic Loop and Fringe Stabilization; 3.2.5. Simultaneous Stabilization and Monitoring; 3.3. Applications; 3.3.1. Self-Stabilized Holographic Recording in Photoresist Films; 3.3.2. Self-Stabilized Photoelectrochemical Etching of n-InP(100) Substrates; 3.3.3. Self-Stabilized Holographic Recording in Photorefractive Crystals; References
• 4. Optical Scanning Holography: Principles and Applications4.1. Introduction; 4.2. Optical Heterodyne Scanning Technique; 4.3. Scanning Holography; 4.4. Three-Dimensional Holographic Fluorescence Microscopy; 4.5. Three-Dimensional Image Recognition; 4.6. Preprocessing of Holographic Information; 4.7. Conclusion Remarks; References; 5. Tangible, Dynamic Holographic Images; 5.1. Introduction; 5.2. Context; 5.3. Haptics and Holographic Video; 5.4. Holographic Video System Architecture; 5.4.1. Optical Pipeline; 5.4.2. Computational Pipeline; 5.5. Holo-Haptic Lathe Implementation
• 5.5.1. System Overview5.5.2. Haptic Modeling and Display; 5.5.3. Precomputed Holograms and Limited Interaction; 5.6. Results; 5.7. Modality Discrepancies and Cue Conflicts; 5.7.1. Spatial Misregistration; 5.7.2. Occlusion Violations; 5.7.3. Volume Violations; 5.7.4. Visual-Haptic Surface Property Mismatch; 5.8. Implications for Mixed-Reality Design; 5.9. Conclusions; References; 6. Preliminary Studies on Compressing Interference Patterns in Electronic Holography; 6.1. Introduction; 6.2. Characteristic of Interference Pattern; 6.3. Electronic Holography; 6.3.1. A Novel Architecture
• 6.4. Sampling and Quantization6.4.1. Uniform Quantization; 6.4.2. Nonuniform Quantization; 6.5. Compression of Interference Pattern; 6.5.1. Downsizing; 6.5.2. Subsampling; 6.5.3. JPEG-Based Coding Technique; 6.6. Summary; References; 7. Holographic Laser Radar; 7.1. Introduction; 7.2. Background and Theory; 7.2.1. Holographic Recording; 7.2.2. Point Spread Function; 7.2.3. Image Reconstruction; 7.3. Experimental Breadboard for Holographic Laser Radar; 7.4. Experimental Results; 7.5. Advanced Numerical Techniques for Holographic Data Analysis; 7.6. Conclusions; References
• 8. Photoelectronic Principles, Components, and Applications
• A comprehensive survey of the state of the art in 3-D holographic imaging techniques and applications This book introduces the general concepts of both real-time and non-real-time 3-D holographic imaging techniques for scientific and engineering applications. It offers readers a fundamental understanding of the concepts of 3-D holographic imaging as well as cost-effective design and implementation. World-renowned experts in the field provide in-depth discussion of the following topics:Holograms of real and virtual point trajectoriesSelf-stabilized real-time holographic rec
• English