Multi-dimensional imaging

Multi-dimensional imaging /

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Bibliographic Details
Corporate Author: Ebooks Corporation
Other Authors: Javidi, Bahram (Editor), Tajahuerce, Enrique (Editor), Andres, Pedro (Editor)
Format: Electronic eBook
Language:English
Published: Chichester, West Sussex, United Kingdom : IEEE Press : Wiley, 2014.
Subjects:
Three-dimensional imaging.
Online Access:Connect to this title online (unlimited simultaneous users allowed; 325 uses per year)
Table of Contents:
  • Machine generated contents note: 1. Parallel Phase-Shifting Digital Holography
  • 1.1. Chapter Overview / Yasuhiro Awatsuji
  • 1.2. Introduction / Yasuhiro Awatsuji
  • 1.3. Digital Holography and Phase-Shifting Digital Holography / Yasuhiro Awatsuji
  • 1.4. Parallel Phase-Shifting Digital Holography / Yasuhiro Awatsuji
  • 1.5. Experimental Demonstration of Parallel Phase-Shifting Digital Holography / Yasuhiro Awatsuji
  • 1.6. High-Speed Parallel phase-Shifting Digital Holography System / Yasuhiro Awatsuji
  • 1.7. Single-Shot Femtosecond-Pulsed Parallel Phase-Shifting Digital Holography System / Yasuhiro Awatsuji
  • 1.8. Portable Parallel Phase-Shifting Digital Holography System / Yasuhiro Awatsuji
  • 1.9. Functional Extension of Parallel Phase-Shifting Digital Holography / Yasuhiro Awatsuji
  • 1.9.1. Parallel Phase-Shifting Digital Holography Using Multiple Wavelengths / Yasuhiro Awatsuji
  • 1.9.2. Parallel Phase-Shifting Digital Holography Using Multiple Polarized Light / Yasuhiro Awatsuji
  • 1.9.3. Parallel Phase-Shifting Digital Holographic Microscope / Yasuhiro Awatsuji
  • 1.10. Prospects and Conclusion / Yasuhiro Awatsuji
  • Acknowledgments / Yasuhiro Awatsuji
  • References / Yasuhiro Awatsuji
  • 2. Imaging and Display of Human Size Scenes by Long Wavelength Digital Holography / Yasuhiro Awatsuji
  • 2.1. Introduction / Massimiliano Locatelli / Eugenio Pugliese / Melania Paturzo / Vittorio Bianco / Pietro Ferraro / Anna Pelagotti / Pasquale Poggi / Lisa Miccio / Riccardo Meucci / Andrea Finizio
  • 2.2. Digital Holography Principles / Massimiliano Locatelli / Eugenio Pugliese / Melania Paturzo / Vittorio Bianco / Pietro Ferraro / Anna Pelagotti / Pasquale Poggi / Lisa Miccio / Riccardo Meucci / Andrea Finizio
  • 2.2.1. Fresnel Method / Massimiliano Locatelli / Eugenio Pugliese / Melania Paturzo / Vittorio Bianco / Pietro Ferraro / Anna Pelagotti / Pasquale Poggi / Lisa Miccio / Riccardo Meucci / Andrea Finizio
  • 2.2.2. Advantages of Digital Holography / Anna Pelagotti / Pasquale Poggi / Lisa Miccio / Riccardo Meucci / Andrea Finizio / Massimiliano Locatelli / Eugenio Pugliese / Melania Paturzo / Vittorio Bianco / Pietro Ferraro
  • 2.3. Infrared Digital Holography / Massimiliano Locatelli / Eugenio Pugliese / Melania Paturzo / Vittorio Bianco / Pietro Ferraro / Anna Pelagotti / Pasquale Poggi / Lisa Miccio / Riccardo Meucci / Andrea Finizio
  • 2.4. Latest Achievements in IRDH / Massimiliano Locatelli / Eugenio Pugliese / Melania Paturzo / Vittorio Bianco / Pietro Ferraro / Anna Pelagotti / Pasquale Poggi / Lisa Miccio / Riccardo Meucci / Andrea Finizio
  • 2.4.1. Super Resolution by Means of Synthetic Aperture / Massimiliano Locatelli / Eugenio Pugliese / Melania Paturzo / Vittorio Bianco / Pietro Ferraro / Anna Pelagotti / Pasquale Poggi / Lisa Miccio / Riccardo Meucci / Andrea Finizio
  • 2.4.2. Human Size Holograms / Massimiliano Locatelli / Eugenio Pugliese / Melania Paturzo / Vittorio Bianco / Pietro Ferraro / Anna Pelagotti / Pasquale Poggi / Lisa Miccio / Riccardo Meucci / Andrea Finizio
  • 2.4.3. Visible Analog Reconstruction of IR Digital Holograms / Massimiliano Locatelli / Eugenio Pugliese / Melania Paturzo / Vittorio Bianco / Pietro Ferraro / Anna Pelagotti / Pasquale Poggi / Lisa Miccio / Riccardo Meucci / Andrea Finizio
  • 2.4.4. Smoke and Flames Hidden Object Holograms / Pietro Ferraro / Massimiliano Locatelli / Eugenio Pugliese / Melania Paturzo / Riccardo Meucci / Andrea Finizio / Anna Pelagotti / Pasquale Poggi / Lisa Miccio / Vittorio Bianco
  • 2.5. Conclusion / Massimiliano Locatelli / Eugenio Pugliese / Melania Paturzo / Vittorio Bianco / Pietro Ferraro / Anna Pelagotti / Pasquale Poggi / Lisa Miccio / Riccardo Meucci / Andrea Finizio
  • References / Massimiliano Locatelli / Eugenio Pugliese / Melania Paturzo / Vittorio Bianco / Pietro Ferraro / Anna Pelagotti / Pasquale Poggi / Lisa Miccio / Riccardo Meucci / Andrea Finizio
  • 3. Digital Hologram Processing in On-Axis Holography / Massimiliano Locatelli / Eugenio Pugliese / Melania Paturzo / Vittorio Bianco / Pietro Ferraro / Anna Pelagotti / Pasquale Poggi / Lisa Miccio / Riccardo Meucci / Andrea Finizio
  • 3.1. Introduction / Corinne Fournier / Thierry Fournel / Mozhdeh Seifi / Loic Denis
  • 3.2. Model of Hologram Image Formation / Corinne Fournier / Thierry Fournel / Mozhdeh Seifi / Loic Denis
  • 3.3. DH Reconstruction Based on Back Propagation / Corinne Fournier / Thierry Fournel / Mozhdeh Seifi / Loic Denis
  • 3.4. Hologram Reconstruction Formulated as an Inverse Problem / Mozhdeh Seifi / Loic Denis / Corinne Fournier / Thierry Fournel
  • 3.4.1. Reconstruction of Parametric Objects (FI) / Corinne Fournier / Thierry Fournel / Mozhdeh Seifi / Loic Denis
  • 3.4.2. Reconstruction of 3-D Transmittance Distributions (FII) / Corinne Fournier / Thierry Fournel / Mozhdeh Seifi / Loic Denis
  • 3.5. Estimation of Accuracy / Corinne Fournier / Thierry Fournel / Mozhdeh Seifi / Loic Denis
  • 3.6. Fast Processing Algorithms / Corinne Fournier / Thierry Fournel / Mozhdeh Seifi / Loic Denis
  • 3.6.1. Multiscale Algorithm for Reconstruction of Parametric Objects / Loic Denis / Corinne Fournier / Thierry Fournel / Mozhdeh Seifi
  • 3.6.2. Dictionary Size Reduction for Fast Global Detection / Corinne Fournier / Thierry Fournel / Mozhdeh Seifi / Loic Denis
  • 3.7. Conclusion / Corinne Fournier / Thierry Fournel / Mozhdeh Seifi / Loic Denis
  • References / Corinne Fournier / Thierry Fournel / Mozhdeh Seifi / Loic Denis
  • 4. Multi-dimensional Imaging by Compressive Digital Holography / Corinne Fournier / Thierry Fournel / Mozhdeh Seifi / Loic Denis
  • 4.1. Introduction / Yair Rivenson / Bahram Javidi / Joseph Rosen / Adrian Stern
  • 4.2. Compressive Sensing Preliminaries / Yair Rivenson / Bahram Javidi / Joseph Rosen / Adrian Stern
  • 4.2.1. Coherence Parameter / Yair Rivenson / Bahram Javidi / Joseph Rosen / Adrian Stern
  • 4.3. Conditions for Accurate Reconstruction of Compressive Digital Holographic Sensing / Yair Rivenson / Bahram Javidi / Joseph Rosen / Adrian Stern
  • 4.3.1. Compressive Sensing Reconstruction Performance for a Plane Wave Illuminated Object / Yair Rivenson / Bahram Javidi / Joseph Rosen / Adrian Stern
  • 4.3.2. Compressive Sensing Reconstruction Performance for a Spherical Wave Illuminated Object / Yair Rivenson / Bahram Javidi / Joseph Rosen / Adrian Stern
  • 4.3.3. Reconstruction Performance for Non-Canonical Sparsifying Operators / Yair Rivenson / Bahram Javidi / Joseph Rosen / Adrian Stern
  • 4.4. Applications of Compressive Digital Holographic Sensing / Yair Rivenson / Bahram Javidi / Joseph Rosen / Adrian Stern
  • 4.4.1. Compressive Fresnel Holography by Undersampling the Hologram Plane / Yair Rivenson / Bahram Javidi / Joseph Rosen / Adrian Stern
  • 4.4.2. Compressive Digital Holography for Reconstruction of an Object Set Behind an Opaque Medium / Yair Rivenson / Bahram Javidi / Joseph Rosen / Adrian Stern
  • 4.4.3. Reconstruction of 3D Tomograms from a 2D Hologram / Yair Rivenson / Bahram Javidi / Joseph Rosen / Adrian Stern
  • 4.5. Conclusion / Adrian Stern / Yair Rivenson / Bahram Javidi / Joseph Rosen
  • Acknowledgments / Yair Rivenson / Bahram Javidi / Joseph Rosen / Adrian Stern
  • References / Yair Rivenson / Bahram Javidi / Joseph Rosen / Adrian Stern
  • 5. Dispersion Compensation in Holograms Reconstructed by Femtosecond Light Pulses / Yair Rivenson / Bahram Javidi / Joseph Rosen / Adrian Stern
  • 5.1. Introduction / Omel Mendoza-Yero / Jorge Pérez-Vizcaino / Lluis Martinez-León / Pedro Andrés / Vicent Climent / Jesús Lancis / Gladys Minguez-Vega
  • 5.2. Fundamental Features of the DCM / Omel Mendoza-Yero / Jorge Pérez-Vizcaino / Lluis Martinez-León / Pedro Andrés / Vicent Climent / Jesús Lancis / Gladys Minguez-Vega
  • 5.2.1. Theory of Propagation of Diffracted Femtosecond Pulses / Omel Mendoza-Yero / Jorge Pérez-Vizcaino / Lluis Martinez-León / Gladys Minguez-Vega / Vicent Climent / Jesús Lancis / Pedro Andrés
  • 5.2.2. Second Order Analysis / Omel Mendoza-Yero / Jorge Pérez-Vizcaino / Lluis Martinez-León / Pedro Andrés / Vicent Climent / Jesús Lancis / Gladys Minguez-Vega
  • 5.2.3. Conventional Refractive Lens System / Omel Mendoza-Yero / Jorge Pérez-Vizcaino / Lluis Martinez-León / Pedro Andrés / Vicent Climent / Jesús Lancis / Gladys Minguez-Vega
  • 5.2.4. Dispersion Compensation Module / Omel Mendoza-Yero / Jorge Pérez-Vizcaino / Lluis Martinez-León / Pedro Andrés / Vicent Climent / Jesús Lancis / Gladys Minguez-Vega
  • 5.2.5. Comparative Numerical Simulations / Omel Mendoza-Yero / Jorge Pérez-Vizcaino / Lluis Martinez-León / Pedro Andrés / Vicent Climent / Jesús Lancis / Gladys Minguez-Vega
  • 5.2.6. Experimental Results / Omel Mendoza-Yero / Jorge Pérez-Vizcaino / Lluis Martinez-León / Pedro Andrés / Vicent Climent / Jesús Lancis / Gladys Minguez-Vega
  • 5.3. Holographic Applications of the DCM with Ultrafast Light Pulses / Omel Mendoza-Yero / Jorge Pérez-Vizcaino / Lluis Martinez-León / Pedro Andrés / Vicent Climent / Jesús Lancis / Gladys Minguez-Vega
  • 5.3.1. Single Shot Second Harmonic Signals / Omel Mendoza-Yero / Jorge Pérez-Vizcaino / Lluis Martinez-León / Pedro Andrés / Vicent Climent / Jesús Lancis / Gladys Minguez-Vega
  • 5.3.2. Wide-Field Fluorescence Signals in Two-Photon Microscopy / Omel Mendoza-Yero / Jorge Pérez-Vizcaino / Lluis Martinez-León / Pedro Andrés / Vicent Climent / Jesús Lancis / Gladys Minguez-Vega
  • Contents note continued: 5.3.3. High Speed Parallel Micromachining / Omel Mendoza-Yero / Jorge Pérez-Vizcaino / Lluis Martinez-León / Pedro Andrés / Vicent Climent / Jesús Lancis / Gladys Minguez-Vega
  • 5.4. Conclusion / Omel Mendoza-Yero / Jorge Pérez-Vizcaino / Lluis Martinez-León / Pedro Andrés / Vicent Climent / Jesús Lancis / Gladys Minguez-Vega
  • Acknowledgments / Omel Mendoza-Yero / Jorge Pérez-Vizcaino / Lluis Martinez-León / Pedro Andrés / Vicent Climent / Jesús Lancis / Gladys Minguez-Vega
  • References / Omel Mendoza-Yero / Jorge Pérez-Vizcaino / Lluis Martinez-León / Pedro Andrés / Vicent Climent / Jesús Lancis / Gladys Minguez-Vega
  • 6. Advanced Digital Holographic Microscopy for Life Science Applications / Omel Mendoza-Yero / Jorge Pérez-Vizcaino / Lluis Martinez-León / Pedro Andrés / Vicent Climent / Jesús Lancis / Gladys Minguez-Vega
  • 6.1. Introduction / Ahmed El Mallahi / Frank Dubois / Catherine Yourassowsky / Christophe Minetti
  • 6.2. DHM Configurations / Frank Dubois / Catherine Yourassowsky / Christophe Minetti / Ahmed El Mallahi
  • 6.2.1. Phase Stepper DHM / Frank Dubois / Catherine Yourassowsky / Christophe Minetti / Ahmed El Mallahi
  • 6.2.2. Fast Off-Axis DHM / Frank Dubois / Catherine Yourassowsky / Christophe Minetti / Ahmed El Mallahi
  • 6.2.3. Color DHM / Frank Dubois / Catherine Yourassowsky / Christophe Minetti / Ahmed El Mallahi
  • 6.3. Automated 3D Holographic Analysis / Frank Dubois / Catherine Yourassowsky / Christophe Minetti / Ahmed El Mallahi
  • 6.3.1. Extraction of the Full Interferometric Information / Frank Dubois / Catherine Yourassowsky / Christophe Minetti / Ahmed El Mallahi
  • 6.3.2. Automated 3D Detection of Organisms / Frank Dubois / Catherine Yourassowsky / Christophe Minetti / Ahmed El Mallahi
  • 6.4. Applications / Frank Dubois / Catherine Yourassowsky / Christophe Minetti / Ahmed El Mallahi
  • 6.4.1. Holographic Classification of Micro-Organisms / Frank Dubois / Catherine Yourassowsky / Christophe Minetti / Ahmed El Mallahi
  • 6.4.2. Dynamics of Red Blood Cells (RBCs) / Frank Dubois / Catherine Yourassowsky / Christophe Minetti / Ahmed El Mallahi
  • 6.5. Conclusion / Frank Dubois / Catherine Yourassowsky / Christophe Minetti / Ahmed El Mallahi
  • Acknowledgments / Frank Dubois / Catherine Yourassowsky / Christophe Minetti / Ahmed El Mallahi
  • References / Frank Dubois / Catherine Yourassowsky / Christophe Minetti / Ahmed El Mallahi
  • 7. Programmable Microscopy / Frank Dubois / Catherine Yourassowsky / Christophe Minetti / Ahmed El Mallahi
  • 7.1. Introduction / Tobias Haist / Michal Baranek / Wolfang Osten / Malte Hasler
  • 7.2. Optical Design Considerations and Some Typical Setups / Malte Hasler / Tobias Haist / Michal Baranek / Wolfang Osten
  • 7.3. Liquid Crystal Spatial Light Modulator / Tobias Haist / Michal Baranek / Wolfang Osten / Malte Hasler
  • 7.4. Aberration Correction / Tobias Haist / Michal Baranek / Wolfang Osten / Malte Hasler
  • 7.4.1. Isoplanatic Case / Tobias Haist / Malte Hasler / Wolfang Osten / Michal Baranek
  • 7.4.2. Field-Dependent Aberrations / Tobias Haist / Malte Hasler / Wolfang Osten / Michal Baranek
  • 7.4.3. Defocusing / Tobias Haist / Malte Hasler / Michal Baranek / Wolfang Osten
  • 7.5. Phase Contrast Imaging / Tobias Haist / Malte Hasler / Wolfang Osten / Michal Baranek
  • 7.5.1. Dark Field / Tobias Haist / Wolfang Osten / Malte Hasler / Michal Baranek
  • 7.5.2. Zemike Phase Contrast / Tobias Haist / Malte Hasler / Wolfang Osten / Michal Baranek
  • 7.5.3. Interference Contrast / Tobias Haist / Michal Baranek / Wolfang Osten / Malte Hasler
  • 7.5.4. Combining Different Phase Contrast Images / Tobias Haist / Michal Baranek / Wolfang Osten / Malte Hasler
  • 7.6. Stereo Microscopy / Tobias Haist / Michal Baranek / Wolfang Osten / Malte Hasler
  • 7.7. Conclusion / Tobias Haist / Michal Baranek / Wolfang Osten / Malte Hasler
  • References / Tobias Haist / Michal Baranek / Wolfang Osten / Malte Hasler
  • 8. Holographic Three-Dimensional Measurement of an Optically Trapped Nanoparticle / Tobias Haist / Michal Baranek / Wolfang Osten / Malte Hasler
  • 8.1. Introduction / Yoshio Hayasaki
  • 8.2. Experimental Setup / Yoshio Hayasaki
  • 8.2.1. Optical Tweezers System / Yoshio Hayasaki
  • 8.2.2. In-Line Digital Holographic Microscope / Yoshio Hayasaki
  • 8.3. Experimental Results of 3D Position Measurement of Nanoparticles / Yoshio Hayasaki
  • 8.3.1. 200 nm Polystyrene Particle Fixed on a Glass Substrate / Yoshio Hayasaki
  • 8.3.2. Axial Step in 3D Sub-Pixel Estimation / Yoshio Hayasaki
  • 8.3.3. Brownian Motion of a 200 nm Polystyrene Particle Held in Optical Tweezers / Yoshio Hayasaki
  • 8.3.4. Brownian Motion of a 60 nm Gold Nanoparticle Held in Optical Tweezers / Yoshio Hayasaki
  • 8.4. Twilight Field Technique for Holographic Position Detection of Nanoparticles / Yoshio Hayasaki
  • 8.4.1. Twilight Field Optical Microscope / Yoshio Hayasaki
  • 8.4.2. Low-Coherence, In-Line Digital Holographic Microscope with the LFAF / Yoshio Hayasaki
  • 8.4.3. Improvement of Interference Fringes of a 100 nm Polystyrene Nanoparticle / Yoshio Hayasaki
  • 8.5. Conclusion / Yoshio Hayasaki
  • References / Yoshio Hayasaki
  • 9. Digital Holographic Microscopy: A New Imaging Technique to Quantitatively Explore Cell Dynamics with Nanometer Sensitivity / Yoshio Hayasaki
  • 9.1. Chapter Overview / Christian Depeursinge / Pierre Marquet
  • 9.2. Introduction / Christian Depeursinge / Pierre Marquet
  • 9.3. Holographic Techniques / Christian Depeursinge / Pierre Marquet
  • 9.3.1. Classical Holography / Christian Depeursinge / Pierre Marquet
  • 9.3.2. From Classical to Digital Holography / Christian Depeursinge / Pierre Marquet
  • 9.3.3. Digital Holography Methods / Christian Depeursinge / Pierre Marquet
  • 9.3.4. Digital Holographic Microscopy / Christian Depeursinge / Pierre Marquet
  • 9.4. Cell Imaging with Digital Holographic Quantitative Phase Microscopy / Christian Depeursinge / Pierre Marquet
  • 9.4.1. Cell Counting, Recognition, Classification, and Analysis / Christian Depeursinge / Pierre Marquet
  • 9.4.2. Dry Mass, Cell Growth, and Cell Cycle / Christian Depeursinge / Pierre Marquet
  • 9.4.3. Cell Membrane Fluctuations and Biomechanical Properties / Christian Depeursinge / Pierre Marquet
  • 9.4.4. Absolute Cell Volume and Transmembrane Water Movements / Christian Depeursinge / Pierre Marquet
  • 9.4.5. Exploration of Neuronal Cell Dynamics / Christian Depeursinge / Pierre Marquet
  • 9.5. Future Issues / Christian Depeursinge / Pierre Marquet
  • Acknowledgments / Christian Depeursinge / Pierre Marquet
  • References / Christian Depeursinge / Pierre Marquet
  • 10. Super Resolved Holographic Configurations / Christian Depeursinge / Pierre Marquet
  • 10.1. Introduction / Amihai Meiri / Eran Gur / Zeev Zalevsky / Vicente Micó / Bahram Javidi / Javier Garcia
  • 10.2. Digital Holography, / Amihai Meiri / Eran Gur / Zeev Zalevsky / Vicente Micó / Bahram Javidi / Javier Garcia
  • 10.3. Metal Nanoparticles / Amihai Meiri / Eran Gur / Zeev Zalevsky / Vicente Micó / Bahram Javidi / Javier Garcia
  • 10.4. Resolution Enhancement in Digital Holography / Amihai Meiri / Eran Gur / Zeev Zalevsky / Vicente Micó / Bahram Javidi / Javier Garcia
  • 10.5. Field of View Enhancement in Digital Holography / Amihai Meiri / Eran Gur / Zeev Zalevsky / Vicente Micó / Bahram Javidi / Javier Garcia
  • 10.6. Eliminating the DC Term and the Twin Images / Amihai Meiri / Eran Gur / Zeev Zalevsky / Vicente Micó / Bahram Javidi / Javier Garcia
  • 10.7. Additional Applications / Amihai Meiri / Eran Gur / Zeev Zalevsky / Vicente Micó / Bahram Javidi / Javier Garcia
  • References / Amihai Meiri / Eran Gur / Zeev Zalevsky / Vicente Micó / Bahram Javidi / Javier Garcia
  • 11. Three-Dimensional Integral Imaging and Display / Amihai Meiri / Eran Gur / Zeev Zalevsky / Vicente Micó / Bahram Javidi / Javier Garcia
  • 11.1. Introduction / Manuel Martinez-Corral / Adrián Dorado / Bahram Javidi / Genaro Saavedra / Anabel LLavador
  • 11.2. Basic Theory / Manuel Martinez-Corral / Adrián Dorado / Bahram Javidi / Genaro Saavedra / Anabel LLavador
  • 11.3. Plenoptic Function / Manuel Martinez-Corral / Adrián Dorado / Bahram Javidi / Genaro Saavedra / Anabel LLavador
  • 11.4. Methods for the Capture of the Plenoptic Field / Manuel Martinez-Corral / Adrián Dorado / Bahram Javidi / Genaro Saavedra / Anabel LLavador
  • 11.4.1. Integral Photography / Manuel Martinez-Corral / Adrián Dorado / Bahram Javidi / Genaro Saavedra / Anabel LLavador
  • 11.4.2. Plenoptic Camera / Manuel Martinez-Corral / Adrián Dorado / Bahram Javidi / Genaro Saavedra / Anabel LLavador
  • 11.5. Walking in Plenoptic Space / Manuel Martinez-Corral / Adrián Dorado / Bahram Javidi / Genaro Saavedra / Anabel LLavador
  • 11.6. Reconstruction of Intensity Distribution in Different Depth Planes / Manuel Martinez-Corral / Adrián Dorado / Bahram Javidi / Genaro Saavedra / Anabel LLavador
  • 11.7. Implementation of the Integral Imaging Display Device / Manuel Martinez-Corral / Adrián Dorado / Anabel LLavador / Genaro Saavedra / Bahram Javidi
  • 11.8. Conclusion / Manuel Martinez-Corral / Adrián Dorado / Bahram Javidi / Genaro Saavedra / Anabel LLavador
  • Acknowledgments / Manuel Martinez-Corral / Adrián Dorado / Bahram Javidi / Genaro Saavedra / Anabel LLavador
  • Contents note continued: References / Genaro Saavedra / Bahram Javidi / Anabel LLavador / Adrián Dorado / Manuel Martinez-Corral
  • 12. Image Formats of Various 3-D Displays / Manuel Martinez-Corral / Adrián Dorado / Bahram Javidi / Genaro Saavedra / Anabel LLavador
  • 12.1. Chapter Overview / Jung-Young Son / Chun-Hea Lee / Bahram Javidi / Min-Chul Park / Wook-Ho Son
  • 12.2. Introduction / Jung-Young Son / Chun-Hea Lee / Bahram Javidi / Min-Chul Park / Wook-Ho Son
  • 12.3. Multiplexing Schemes / Jung-Young Son / Chun-Hea Lee / Bahram Javidi / Min-Chul Park / Wook-Ho Son
  • 12.4. Image Formats for 3-D Imaging / Jung-Young Son / Chun-Hea Lee / Bahram Javidi / Min-Chul Park / Wook-Ho Son
  • 12.4.1. Image Formats for Multiview 3-D Imaging / Jung-Young Son / Chun-Hea Lee / Bahram Javidi / Min-Chul Park / Wook-Ho Son
  • 12.4.2. Image Formats for Volumetric Imaging / Jung-Young Son / Chun-Hea Lee / Bahram Javidi / Min-Chul Park / Wook-Ho Son
  • 12.4.3. Image Formats for Holographic Imaging / Jung-Young Son / Chun-Hea Lee / Bahram Javidi / Min-Chul Park / Wook-Ho Son
  • References / Jung-Young Son / Chun-Hea Lee / Bahram Javidi / Min-Chul Park / Wook-Ho Son
  • 13. Ray-based and Wavefront-based 3D Representations for Holographic Displays / Jung-Young Son / Chun-Hea Lee / Bahram Javidi / Min-Chul Park / Wook-Ho Son
  • 13.1. Introduction / Koki Wakunami / Masahiro Yamaguchi
  • 13.2. Ray-based and Wavefront-based 3D Displays / Koki Wakunami / Masahiro Yamaguchi
  • 13.3. Conversion between Ray-based and Wavefront 3D Representations / Koki Wakunami / Masahiro Yamaguchi
  • 13.4. Hologram Printer Based on a Full-Parallax Holographic Stereogram / Koki Wakunami / Masahiro Yamaguchi
  • 13.4.1. Holographic 3D Printer / Koki Wakunami / Masahiro Yamaguchi
  • 13.4.2. Full-Parallax Holographic Stereogram / Koki Wakunami / Masahiro Yamaguchi
  • 13.5. Computational Holography Using a Ray-Sampling Plane / Koki Wakunami / Masahiro Yamaguchi
  • 13.5.1. Computational Techniques for Electro-Holographic 3D Displays / Koki Wakunami / Masahiro Yamaguchi
  • 13.5.2. Algorithm for CGH Calculation Using a Ray-Sampling Plane / Koki Wakunami / Masahiro Yamaguchi
  • 13.5.3. Comparison with Ray-based Techniques / Koki Wakunami / Masahiro Yamaguchi
  • 13.5.4. Optical Reconstruction / Koki Wakunami / Masahiro Yamaguchi
  • 13.6. Occlusion Culling for Computational Holography Using the Ray-Sampling Plane / Koki Wakunami / Masahiro Yamaguchi
  • 13.6.1. Algorithm for Occlusion Culling Using the Ray-Sampling Plane / Koki Wakunami / Masahiro Yamaguchi
  • 13.6.2. Experiment on Occlusion Culling Using the Ray-Sampling Plane / Koki Wakunami / Masahiro Yamaguchi
  • 13.7. Scanning Vertical Camera Array for Computational Holography / Koki Wakunami / Masahiro Yamaguchi
  • 13.7.1. Acquisition of a High-Density Light Field / Koki Wakunami / Masahiro Yamaguchi
  • 13.7.2. Scanning Vertical Camera Array / Koki Wakunami / Masahiro Yamaguchi
  • 13.7.3. Vertical Interpolation / Koki Wakunami / Masahiro Yamaguchi
  • 13.7.4. Synthesis of Ray Images / Koki Wakunami / Masahiro Yamaguchi
  • 13.7.5. Experiment on Full-Parallax Image Generation / Koki Wakunami / Masahiro Yamaguchi
  • 13.8. Conclusion and Future Issues / Koki Wakunami / Masahiro Yamaguchi
  • Acknowledgments / Koki Wakunami / Masahiro Yamaguchi
  • References / Koki Wakunami / Masahiro Yamaguchi
  • 14. Rigorous Diffraction Theory for 360° Computer-Generated Holograms / Masahiro Yamaguchi / Koki Wakunami
  • 14.1. Introduction / Toyohiko Yatagai / Boaz Jessie Jackin / Yusuke Sando
  • 14.2. Three-Dimensional Object and Its Diffracted Wavefront / Toyohiko Yatagai / Boaz Jessie Jackin / Yusuke Sando
  • 14.2.1. Diffracted Waves with Full View Angles / Toyohiko Yatagai / Boaz Jessie Jackin / Yusuke Sando
  • 14.3. Point-Spread Function Approach for Spherical Holography / Toyohiko Yatagai / Boaz Jessie Jackin / Yusuke Sando
  • 14.3.1. Spherical Object and Spherical Hologram / Toyohiko Yatagai / Boaz Jessie Jackin / Yusuke Sando
  • 14.3.2. Approximation Error / Toyohiko Yatagai / Boaz Jessie Jackin / Yusuke Sando
  • 14.3.3. Computer Simulation for Spherical Holography / Toyohiko Yatagai / Boaz Jessie Jackin / Yusuke Sando
  • 14.4. Rigorous Point-Spread Function Approach / Toyohiko Yatagai / Boaz Jessie Jackin / Yusuke Sando
  • 14.4.1. Numerical Computation / Toyohiko Yatagai / Boaz Jessie Jackin / Yusuke Sando
  • 14.4.2. Simulation Results on Rigorous Theory / Toyohiko Yatagai / Boaz Jessie Jackin / Yusuke Sando
  • 14.4.3. Verification through Comparison / Toyohiko Yatagai / Boaz Jessie Jackin / Yusuke Sando
  • 14.4.4. Hologram Generation / Toyohiko Yatagai / Boaz Jessie Jackin / Yusuke Sando
  • 14.5. Conclusion / Toyohiko Yatagai / Boaz Jessie Jackin / Yusuke Sando
  • References / Toyohiko Yatagai / Boaz Jessie Jackin / Yusuke Sando
  • 15. High-Speed 3D Spectral Imaging with Stimulated Raman Scattering / Toyohiko Yatagai / Boaz Jessie Jackin / Yusuke Sando
  • 15.1. Introduction / Kazuyoshi Itoh / Yasuyuki Ozeki
  • 15.2. Principles and Advantages of SRS Microscopy / Kazuyoshi Itoh / Yasuyuki Ozeki
  • 15.2.1. Operation Principles / Kazuyoshi Itoh / Yasuyuki Ozeki
  • 15.2.2. Comparison with Previous Raman Microscopy Techniques / Kazuyoshi Itoh / Yasuyuki Ozeki
  • 15.2.3. Artifacts in SRS Microscopy / Kazuyoshi Itoh / Yasuyuki Ozeki
  • 15.2.4. Physical Background / Kazuyoshi Itoh / Yasuyuki Ozeki
  • 15.3. Spectral Imaging with SRS / Kazuyoshi Itoh / Yasuyuki Ozeki
  • 15.4. High-Speed Spectral Imaging / Kazuyoshi Itoh / Yasuyuki Ozeki
  • 15.4.1. High-Speed Wavelength-Tunable Laser / Kazuyoshi Itoh / Yasuyuki Ozeki
  • 15.4.2. Experimental Setup / Kazuyoshi Itoh / Yasuyuki Ozeki
  • 15.4.3. Observation of Polymer Beads / Kazuyoshi Itoh / Yasuyuki Ozeki
  • 15.4.4. Spectral Analysis / Kazuyoshi Itoh / Yasuyuki Ozeki
  • 15.4.5. Tissue Imaging / Kazuyoshi Itoh / Yasuyuki Ozeki
  • 15.5. Summary / Kazuyoshi Itoh / Yasuyuki Ozeki
  • Acknowledgments / Kazuyoshi Itoh / Yasuyuki Ozeki
  • References / Kazuyoshi Itoh / Yasuyuki Ozeki
  • 16. Spectropolarimetric Imaging Techniques with Compressive Sensing / Kazuyoshi Itoh / Yasuyuki Ozeki
  • 16.1. Chapter Overview / Fernando Soldevila / Esther Irles / Vicente Durán / Pere Clemente / Mercedes Fernández-Alonso / Enrique Tajahuerce / Jesús Lancis
  • 16.2. Single-Pixel Imaging and Compressive Sensing / Fernando Soldevila / Esther Irles / Vicente Durán / Jesús Lancis / Mercedes Fernández-Alonso / Enrique Tajahuerce / Pere Clemente
  • 16.3. Single-Pixel Polarimetric Imaging / Fernando Soldevila / Esther Irles / Vicente Durán / Jesús Lancis / Mercedes Fernández-Alonso / Enrique Tajahuerce / Pere Clemente
  • 16.4. Single-Pixel Multispectral Imaging / Fernando Soldevila / Esther Irles / Vicente Durán / Jesús Lancis / Mercedes Fernández-Alonso / Enrique Tajahuerce / Pere Clemente
  • 16.5. Single-Pixel Spectropolarimetric Imaging / Fernando Soldevila / Esther Irles / Vicente Durán / Jesús Lancis / Mercedes Fernández-Alonso / Enrique Tajahuerce / Pere Clemente
  • 16.5.1. Multispectral Linear Polarimetric Camera / Fernando Soldevila / Esther Irles / Vicente Durán / Jesús Lancis / Mercedes Fernández-Alonso / Enrique Tajahuerce / Pere Clemente
  • 16.5.2. Multispectral Full-Stokes Imaging Polarimeter / Vicente Durán / Pere Clemente / Mercedes Fernández-Alonso / Esther Irles / Jesús Lancis / Fernando Soldevila / Enrique Tajahuerce
  • 16.6. Conclusion / Fernando Soldevila / Esther Irles / Vicente Durán / Jesús Lancis / Mercedes Fernández-Alonso / Enrique Tajahuerce / Pere Clemente
  • Acknowledgments / Fernando Soldevila / Esther Irles / Vicente Durán / Jesús Lancis / Mercedes Fernández-Alonso / Enrique Tajahuerce / Pere Clemente
  • References / Fernando Soldevila / Esther Irles / Vicente Durán / Jesús Lancis / Mercedes Fernández-Alonso / Enrique Tajahuerce / Pere Clemente
  • 17. Passive Polarimetric Imaging / Fernando Soldevila / Esther Irles / Vicente Durán / Jesús Lancis / Mercedes Fernández-Alonso / Enrique Tajahuerce / Pere Clemente
  • 17.1. Introduction / Michael T. Eismann / Daniel A. LeMaster
  • 17.2. Representations of Polarized Light / Michael T. Eismann / Daniel A. LeMaster
  • 17.2.1. Optical Electro-Magnetic Fields / Michael T. Eismann / Daniel A. LeMaster
  • 17.2.2. Stokes Parameters and Mueller Matrices / Michael T. Eismann / Daniel A. LeMaster
  • 17.2.3. Poincare Sphere / Michael T. Eismann / Daniel A. LeMaster
  • 17.3. Polarized Reflection and Emission / Michael T. Eismann / Daniel A. LeMaster
  • 17.3.1. Reflection / Michael T. Eismann / Daniel A. LeMaster
  • 17.3.2. Emission / Michael T. Eismann / Daniel A. LeMaster
  • 17.4. Atmospheric Contributions to Polarimetric Signatures / Michael T. Eismann / Daniel A. LeMaster
  • 17.4.1. Reflective Bands / Michael T. Eismann / Daniel A. LeMaster
  • 17.4.2. Emissive Bands / Michael T. Eismann / Daniel A. LeMaster
  • 17.5. Data Reduction Matrix Analysis of Modulated Polarimeters / Michael T. Eismann / Daniel A. LeMaster
  • 17.5.1. Important Equations / Michael T. Eismann / Daniel A. LeMaster
  • 17.5.2. Example Stokes Polarimeters / Michael T. Eismann / Daniel A. LeMaster
  • 17.6. Fourier Domain Analysis of Modulated Polarimeters / Michael T. Eismann / Daniel A. LeMaster
  • 17.6.1. Rotating Analyzer / Daniel A. LeMaster / Michael T. Eismann
  • 17.6.2. Microgrid Polarimeters / Michael T. Eismann / Daniel A. LeMaster
  • Contents note continued: 17.6.3. Band-Limited Stokes Reconstruction / Michael T. Eismann / Daniel A. LeMaster
  • 17.7. Radiometric and Polarimetric Calibration / Michael T. Eismann / Daniel A. LeMaster
  • 17.7.1. Radiometric Non-Uniformity Correction / Michael T. Eismann / Daniel A. LeMaster
  • 17.7.2. Polarimetric Calibration / Michael T. Eismann / Daniel A. LeMaster
  • 17.8. Polarimetric Target Detection / Michael T. Eismann / Daniel A. LeMaster
  • References / Michael T. Eismann / Daniel A. LeMaster.

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