01103nam0 22002891i 450 UON0009509220231205102528.85605-212-5028-520020107d1999 |0itac50 baengGB|||| 1||||Cambridge history of Hellenistic philosophyedited by Keimpe Algra (et. al.)CambridgeUniversity Press1999916 p.24 cmFILOSOFIA ELLENISTICAUONC028640FICambridgeUONL000022180FILOSOFIA ANTICA, MEDIEVALE, ORIENTALE21T1TESTI E COMMENTI GRECIAALGRAKeimpeUONV061389Cambridge University PressUONV245943650ITSOL20250620RICASIBA - SISTEMA BIBLIOTECARIO DI ATENEOUONSIUON00095092SIBA - SISTEMA BIBLIOTECARIO DI ATENEOSI T 1 PHILOS 5000 SI MC 23025 7 Cambridge history of Hellenistic philosophy724595UNIOR05447nam 2200721Ia 450 991101982150332120200520144314.0978661036720797812803672051280367202978047031202504703120259780471224549047122454597804714628970471462896(CKB)111056485580882(EBL)152084(OCoLC)475871891(SSID)ssj0000080524(PQKBManifestationID)11115872(PQKBTitleCode)TC0000080524(PQKBWorkID)10096227(PQKB)10470568(MiAaPQ)EBC152084(Perlego)2786409(EXLCZ)9911105648558088220010706d2002 uy 0engur|n|---|||||txtccrThree-dimensional holographic imaging /edited by Chung J. Kuo, Meng Hua TsaiNew York Wiley20021 online resource (222 p.)Wiley series in lasers and applicationsDescription based upon print version of record.9780471358947 0471358940 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; References3. 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; References4. 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 Implementation5.5.1. 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 Architecture6.4. 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; References8. Photoelectronic Principles, Components, and ApplicationsA 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 recWiley series in lasers and applications.HolographyThree-dimensional imagingHolography.Three-dimensional imaging.621.36/75Kuo Chung J.1960-1841370Tsai Meng Hua1969-1841371MiAaPQMiAaPQMiAaPQBOOK9911019821503321Three-dimensional holographic imaging4421076UNINA