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Provides a broad overview of advanced multidimensional imaging systems with contributions from leading researchers in the field Multi-dimensional Imaging takes the reader from the introductory concepts through to the latest applications of these techniques. Split into 3 parts covering 3D image capture, processing, visualization and display, using 1) a Multi-View Approach and 2.) a Holographic Approach, followed by a 3rd part addressing other 3D systems approaches, applications and signal processing for advanced 3D imaging. This book describes recent developments, as well as the prospects and…mehr
Provides a broad overview of advanced multidimensional imaging systems with contributions from leading researchers in the field Multi-dimensional Imaging takes the reader from the introductory concepts through to the latest applications of these techniques. Split into 3 parts covering 3D image capture, processing, visualization and display, using 1) a Multi-View Approach and 2.) a Holographic Approach, followed by a 3rd part addressing other 3D systems approaches, applications and signal processing for advanced 3D imaging. This book describes recent developments, as well as the prospects and challenges in advances in imaging sciences and engineering such as 3D image sensing, 3D holographic imaging, imaging applications for bio-photonics and 3D image recognition. Advanced imaging systems incorporate knowledge from various fields. It is a complex technology that combines physics, optics, signal processing, and image capture techniques. * Provides a broad overview of advanced multidimensional imaging systems with contributions from leading researchers in the field. * Integrates the background, introductory material with new advances in 3D imaging and applications. * Covers the most recent technologies such as high speed digital holography, compressive sensing, real-time 3D integral imaging, 3D TV, photon counting imaging. * To be available as an enhanced ebook with added functionality of colour films showing the effects of advanced 3D applications such as 3D microscopy, 3D biomedical imaging and 3D for security and defense applications. * Acts as a single source reference to the rapidly developing field of 3D imaging technology. * Provides supplementary material on a companion website including video clips, examples, numerical simulations, and experimental results to show the theoretical concepts. With contributions from leading researchers from across these fields, Multi-dimensional Imaging is a comprehensive reference for the imaging technology research community.
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Bahram Javidi, Department of Electrical & Computer Engineering, University of Connecticut, USA Bahram Javidi is Board of Trustees Distinguished Professor at University of Connecticut, USA. Prof. Javidi has been recognized by 9 best journal and conference paper awards, and several major awards from professional societies and foundations. Dr. Javidi has been named Fellow of eight National and International professional scientific societies, including IEEE; AIMBE; OSA; SPIE and IS&T. He has edited/ co-edited 10 books and 54 book chapters, and has published over 320 technical articles in major peer reviewed journals. He has also published over 370 conference proceedings, including more than 120 plenary addresses, keynote addresses, and invited conference papers. Some of his journal papers are among the 10 most cited in their topic according to the ISI Web of Science database. His papers have been cited 7,300 times according to the citation index of WEB of Science (h index=46). Enrique Tajahuerce, School of Technology and Experimental Sciences, University Jaume I, Spain Dr. Tajahuerce is currently an Associate Professor at the School of Technology and Experimental Sciences, University Jaume I, Spain. Pedro Andrés, Diffractive Optics Group, University of Valencia, Spain Prof. Andres was Head of the Optics Department in the University of Valencia from 1998 to 2006. As visiting researcher, he spent several periods at various European and American laboratories. Prof. Andres has co-authored over 100 peer-reviewed papers, in diffractive optics, confocal scanning microscopy, microstructured optical fibers, temporal optics, and ultrafast optics. He has delivered more than 90 invited and contributed papers in international conferences. Prof. Andrés is a Fellow of the OSA and is a member of the Board of Directors of the European Optical Society.
Inhaltsangabe
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, Loïc 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 Pérez-Vizcaíno, Lluís Martínez-León, Gladys Mínguez-Vega, Vicent Climent, Jesús Lancis and Pedro Andrés 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 Micó, 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 Martínez-Corral, Adrián 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 Durán, Pere Clemente, Mercedes Fernández-Alonso, Enrique Tajahuerce and Jesús 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
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, Loïc 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 Pérez-Vizcaíno, Lluís Martínez-León, Gladys Mínguez-Vega, Vicent Climent, Jesús Lancis and Pedro Andrés 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 Micó, 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 Martínez-Corral, Adrián 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 Durán, Pere Clemente, Mercedes Fernández-Alonso, Enrique Tajahuerce and Jesús 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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