Multi-dimensional imaging / edited by Bahram Javidi, Enrique Tajahuerce, Pedro Andre<U+0301>s.
Contributor(s): Javidi, Bahram [editor.] | Tajahuerce, Enrique [editor.] | Andres, Pedro [editor.] | IEEE Xplore (Online Service) [distributor.] | Wiley [publisher.].
Material type: BookSeries: Wiley - IEEE: Publisher: Chichester, West Sussex, United Kingdom : IEEE Press : Wiley, 2014Distributor: [Piscataqay, New Jersey] : IEEE Xplore, [2014]Edition: First edition.Description: 1 PDF (xxii, 433 pages).Content type: text Media type: electronic Carrier type: online resourceISBN: 9781118705766.Subject(s): Three-dimensional imaging | Accuracy | Arrays | Biomedical optical imaging | Cameras | Coherence | Compressed sensing | Convolution | DH-HEMTs | Detectors | Diffraction | Diffraction gratings | Dispersion | Electric fields | Equations | Flat panel displays | Holographic optical components | Holography | IP networks | Image reconstruction | Image resolution | Image sensors | Imaging | Interference | Kernel | Laser beams | Lenses | Lighting | Mathematical model | Microscopy | Modulation | Multiplexing | Nanoparticles | Observers | Optical beams | Optical filters | Optical imaging | Optical interferometry | Optical microscopy | Optical polarization | Optical pulses | Optical scattering | Optical variables measurement | Position measurement | Radiometry | Raman scattering | Rendering (computer graphics) | Sections | Sensors | Spatiotemporal phenomena | Stokes parameters | Surface reconstruction | Surface waves | Three-dimensional displays | Ultrafast optics | VectorsGenre/Form: Electronic books.Additional physical formats: Print version:: No titleOnline resources: Abstract with links to resource Also available in print.Edition statement from running title area.
Includes bibliographical references and index.
About the Editors xv -- List of Contributors xvii -- Preface xxi -- Acknowledgments xxiii -- Part I MULTI-DIMENSIONAL DIGITAL HOLOGRAPHIC TECHNIQUES -- 1 Parallel Phase-Shifting Digital Holography 3 / Yasuhiro Awatsuji -- 1.1 Chapter Overview 3 -- 1.2 Introduction 3 -- 1.3 Digital Holography and Phase-Shifting Digital Holography 4 -- 1.4 Parallel Phase-Shifting Digital Holography 6 -- 1.5 Experimental Demonstration of Parallel Phase-Shifting Digital Holography 8 -- 1.6 High-Speed Parallel Phase-Shifting Digital Holography System 12 -- 1.7 Single-Shot Femtosecond-Pulsed Parallel Phase-Shifting Digital Holography System 14 -- 1.8 Portable Parallel Phase-Shifting Digital Holography System 17 -- 1.9 Functional Extension of Parallel Phase-Shifting Digital Holography 17 -- 1.10 Prospects and Conclusion 20 -- 2 Imaging and Display of Human Size Scenes by Long Wavelength Digital Holography 25 / Massimiliano Locatelli, Eugenio Pugliese, Melania Paturzo, Vittorio Bianco, Andrea Finizio, Anna Pelagotti, Pasquale Poggi, Lisa Miccio, Riccardo Meucci and Pietro Ferraro -- 2.1 Introduction 25 -- 2.2 Digital Holography Principles 25 -- 2.3 Infrared Digital Holography 33 -- 2.4 Latest Achievements in IRDH 34 -- 2.5 Conclusion 46 -- 3 Digital Hologram Processing in On-Axis Holography 51 / Corinne Fournier, Lo�Sic Denis, Mozhdeh Seifi and Thierry Fournel -- 3.1 Introduction 51 -- 3.2 Model of Hologram Image Formation 52 -- 3.3 DH Reconstruction Based on Back Propagation 56 -- 3.4 Hologram Reconstruction Formulated as an Inverse Problem 57 -- 3.5 Estimation of Accuracy 64 -- 3.6 Fast Processing Algorithms 65 -- 3.7 Conclusion 69 -- 4 Multi-dimensional Imaging by Compressive Digital Holography 75 / Yair Rivenson, Adrian Stern, Joseph Rosen, and Bahram Javidi -- 4.1 Introduction 75 -- 4.2 Compressive Sensing Preliminaries 76 -- 4.3 Conditions for Accurate Reconstruction of Compressive Digital Holographic Sensing 79 -- 4.4 Applications of Compressive Digital Holographic Sensing 84.
4.5 Conclusion 96 -- 5 Dispersion Compensation in Holograms Reconstructed by Femtosecond Light Pulses 101 / Omel Mendoza-Yero, Jorge P�rez-Vizca�no, Llu�s Mart�nez-Le�n, Gladys M�nguez-Vega, Vicent Climent, Jess� Lancis and Pedro Andr�s -- 5.1 Introduction 101 -- 5.2 Fundamental Features of the DCM 102 -- 5.3 Holographic Applications of the DCM with Ultrafast Light Pulses 115 -- 5.4 Conclusion 122 -- Part II BIOMEDICAL APPLICATIONS AND MICROSCOPY -- 6 Advanced Digital Holographic Microscopy for Life Science Applications 129 / Frank Dubois, Ahmed El Mallahi, Christophe Minetti and Catherine Yourassowsky -- 6.1 Introduction 129 -- 6.2 DHM Configurations 130 -- 6.3 Automated 3D Holographic Analysis 135 -- 6.4 Applications 139 -- 6.5 Conclusion 148 -- 7 Programmable Microscopy 153 / Tobias Haist, Malte Hasler, Wolfang Osten and Michal Baranek -- 7.1 Introduction 153 -- 7.2 Optical Design Considerations and Some Typical Setups 154 -- 7.3 Liquid Crystal Spatial Light Modulator 158 -- 7.4 Aberration Correction 160 -- 7.5 Phase Contrast Imaging 163 -- 7.6 Stereo Microscopy 168 -- 7.7 Conclusion 169 -- 8 Holographic Three-Dimensional Measurement of an Optically Trapped Nanoparticle 175 / Yoshio Hayasaki -- 8.1 Introduction 175 -- 8.2 Experimental Setup 177 -- 8.3 Experimental Results of 3D Position Measurement of Nanoparticles 182 -- 8.4 Twilight Field Technique for Holographic Position Detection of Nanoparticles 188 -- 8.5 Conclusion 191 -- 9 Digital Holographic Microscopy: A New Imaging Technique to Quantitatively Explore Cell Dynamics with Nanometer Sensitivity 197 / Pierre Marquet and Christian Depeursinge -- 9.1 Chapter Overview 197 -- 9.2 Introduction 198 -- 9.3 Holographic Techniques 200 -- 9.4 Cell Imaging with Digital Holographic Quantitative Phase Microscopy 206 -- 9.5 Future Issues 213 -- 10 Super Resolved Holographic Configurations 225 / Amihai Meiri, Eran Gur, Javier Garcia, Vicente Micƒo, Bahram Javidi and Zeev Zalevsky -- 10.1 Introduction 225.
10.2 Digital Holography 226 -- 10.3 Metal Nanoparticles 227 -- 10.4 Resolution Enhancement in Digital Holography 229 -- 10.5 Field of View Enhancement in Digital Holography 231 -- 10.6 Eliminating the DC Term and the Twin Images 233 -- 10.7 Additional Applications 235 -- Part III MULTI-DIMENSIONAL IMAGING AND DISPLAY -- 11 Three-Dimensional Integral Imaging and Display 243 / Manuel Martƒinez-Corral, Adri�n Dorado, Anabel LLavador, Genaro Saavedra and Bahram Javidi -- 11.1 Introduction 243 -- 11.2 Basic Theory 245 -- 11.3 The Plenoptic Function 246 -- 11.4 Methods for the Capture of the Plenoptic Field 249 -- 11.5 Walking in Plenoptic Space 255 -- 11.6 Reconstruction of Intensity Distribution in Different Depth Planes 257 -- 11.7 Implementation of the Integral Imaging Display Device 261 -- 11.8 Conclusion 262 -- 12 Image Formats of Various 3-D Displays 267 / Jung-Young Son, Chun-Hea Lee, Wook-Ho Son, Min-Chul Park and Bahram Javidi -- 12.1 Chapter Overview 267 -- 12.2 Introduction 268 -- 12.3 Multiplexing Schemes 269 -- 12.4 Image Formats for 3-D Imaging 271 -- 13 Ray-based and Wavefront-based 3D Representations for Holographic Displays 303 / Masahiro Yamaguchi and Koki Wakunami -- 13.1 Introduction 303 -- 13.2 Ray-based and Wavefront-based 3D Displays 303 -- 13.3 Conversion between Ray-based and Wavefront 3D Representations 307 -- 13.4 Hologram Printer Based on a Full-Parallax Holographic Stereogram 308 -- 13.5 Computational Holography Using a Ray-Sampling Plane 310 -- 13.6 Occlusion Culling for Computational Holography Using the Ray-Sampling Plane 313 -- 13.7 Scanning Vertical Camera Array for Computational Holography 315 -- 13.8 Conclusion and Future Issues 323 -- 14 Rigorous Diffraction Theory for 360 Computer-Generated Holograms 327 / Toyohiko Yatagai, Yusuke Sando and Boaz Jessie Jackin -- 14.1 Introduction 327 -- 14.2 Three-Dimensional Object and Its Diffracted Wavefront 328 -- 14.3 Point-Spread Function Approach for Spherical Holography 333 -- 14.4 Rigorous Point-Spread Function Approach 336.
14.5 Conclusion 346 -- Part IV SPECTRAL AND POLARIMETRIC IMAGING -- 15 High-Speed 3D Spectral Imaging with Stimulated Raman Scattering 351 / Yasuyuki Ozeki and Kazuyoshi Itoh -- 15.1 Introduction 351 -- 15.2 Principles and Advantages of SRS Microscopy 352 -- 15.3 Spectral Imaging with SRS 358 -- 15.4 High-Speed Spectral Imaging 360 -- 15.5 Summary 367 -- 16 Spectropolarimetric Imaging Techniques with Compressive Sensing 371 / Fernando Soldevila, Esther Irles, Vicente Dur�n, Pere Clemente, Mercedes Fern�ndez-Alonso, Enrique Tajahuerce and Jess� Lancis -- 16.1 Chapter Overview 371 -- 16.2 Single-Pixel Imaging and Compressive Sensing 372 -- 16.3 Single-Pixel Polarimetric Imaging 373 -- 16.4 Single-Pixel Multispectral Imaging 377 -- 16.5 Single-Pixel Spectropolarimetric Imaging 382 -- 16.6 Conclusion 388 -- 17 Passive Polarimetric Imaging 391 / Daniel A. LeMaster and Michael T. Eismann -- 17.1 Introduction 391 -- 17.2 Representations of Polarized Light 392 -- 17.3 Polarized Reflection and Emission 397 -- 17.4 Atmospheric Contributions to Polarimetric Signatures 404 -- 17.5 Data Reduction Matrix Analysis of Modulated Polarimeters 411 -- 17.6 Fourier Domain Analysis of Modulated Polarimeters 417 -- 17.7 Radiometric and Polarimetric Calibration 421 -- 17.8 Polarimetric Target Detection 424 -- Index 429.
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Multi-dimensional Imaging brings together research from various fields, including physics, optics, signal processing and image capture and display techniques to describe fundamentals as well as advanced multi-dimensional imaging and visualization. With contributions from leading researchers from across these fields, this book is a comprehensive reference for the imaging technology research community. It describes recent developments as well as the prospects and challenges in modern multi-dimensional imaging sciences and engineering; covering the most recent technologies such as high speed digital holography, compressive sensing, computational imaging, real-time 3D integral imaging, 3D TV, polarimetric imaging, biomedical applications, and advanced imagers. -- Key features:. Combines introductory material with new advances in multi-dimensional imaging and applications. Covers the integration of physics, optics, algorithms, and computational imaging providing a broad overview of advanced multi-dimensional imaging systems. Discusses a range of applications including 3D, biomedical applications, entertainment, education, security and defence.
Also available in print.
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