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An easy-to-understand course book, based on the authentic lectures and detailed research, conducted by the authors themselves, on information optics, holography and MATLAB. This book is the first to highlight the incoherent optical system, provide up-to-date, novel digital holography techniques, and demonstrate MATLAB codes to accomplish tasks such as optical image processing and pattern recognition. This title is a comprehensive introduction to the basics of Fourier optics as well as optical image processing and digital holography. A step-by-step guide which details the vast majority of the derivations, without omitting essential steps, to facilitate a clear mathematical understanding. This book also features exercises at the end of each chapter, providing hands-on experience and consolidating understanding. An ideal companion for graduates and researchers involved in engineering and applied physics, as well as interested in the growing field of information optics.
Information display systems. --- Optical communications. --- Optics. --- MATLAB.
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Modern holographic techniques have been successfully applied in many important areas, such as 3-D inspection, 3-D microscopy, metrology, and profilometry, augmented reality, and industrial informatics. This Special Issue covers selected pieces of cutting-edge research works, ranging from low-level acquisition, to high-level analysis, processing, and manipulation of holographic information. The Special Issue also serves as a comprehensive review of existing state-of-the-art techniques in 3-D imaging and 3-D display, as well as broad insights into the future development of these disciplines. The Special Issue contains 25 papers in the field of holography, 3-D imaging, and 3-D display. All the papers underwent substantial peer review under the guidelines of Applied Sciences.
History of engineering & technology --- optical scanning holography --- extended depth-of-field --- automatic focus detection --- entropy minimization --- block partitioned entropy minimization --- holographic printing --- holographic stereogram --- holographic element (hogel) --- round-trip imaging --- scattering media --- 3D imaging --- transmission matrix --- spatial light modulator --- digital holography --- phase modulation --- Fourier spectra --- fast characterization --- coherent imaging --- hologram --- holography --- phase-only --- compression --- deep learning --- JPEG --- convolutional neural network --- shape from focus --- neural network --- weight passing --- computer-generated hologram --- rainbow hologram --- high resolution --- fringe printer --- wide viewing angle --- three-dimensional imaging --- multiwavelength digital holography --- color holography --- phase-shifting interferometry --- phase-shifting digital holography --- absolute phase retrieval --- phase-shift --- fringe order --- geometric constraints --- holographic solar concentrator --- holographic lens --- volume phase holographic optical elements --- near-eye display --- leaky mode --- lithium niobate --- holographic video --- augmented reality --- 3D display --- acousto-optic modulator --- laser-induced structures --- computer holography --- spatial light modulators --- diffraction gratings --- imaging systems --- digital hologram --- holographic display --- tabletop display --- hologram measurement --- ophthalmoscope --- lens design --- medical optics and biotechnology --- holographic element --- virtual reality --- 3-D optical imaging processing --- 3-D optical display --- 3-D projection integral imaging --- three-dimensional dual-view display --- shape from focus (SFF) --- jitter noise --- focus curve --- Kalman filter --- imaging --- 3D --- high-resolution episcopic microscopy --- episcopic --- phenotyping --- HREM --- tomographic diffractive microscopy (TDM) --- diffracted field --- holographic interferometry --- inverse scattering --- dual-view display --- integral imaging --- lens-array holographic optical element --- 3D imaging system --- wave field synthesis --- vergence–accommodation conflict --- lens array --- focus cue --- light field display --- holographic 3D display --- computer generated holography --- generalized phase-shifting interferometry --- slightly tilted reference --- numerical simulations --- n/a --- vergence-accommodation conflict
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Modern holographic techniques have been successfully applied in many important areas, such as 3-D inspection, 3-D microscopy, metrology, and profilometry, augmented reality, and industrial informatics. This Special Issue covers selected pieces of cutting-edge research works, ranging from low-level acquisition, to high-level analysis, processing, and manipulation of holographic information. The Special Issue also serves as a comprehensive review of existing state-of-the-art techniques in 3-D imaging and 3-D display, as well as broad insights into the future development of these disciplines. The Special Issue contains 25 papers in the field of holography, 3-D imaging, and 3-D display. All the papers underwent substantial peer review under the guidelines of Applied Sciences.
History of engineering & technology --- optical scanning holography --- extended depth-of-field --- automatic focus detection --- entropy minimization --- block partitioned entropy minimization --- holographic printing --- holographic stereogram --- holographic element (hogel) --- round-trip imaging --- scattering media --- 3D imaging --- transmission matrix --- spatial light modulator --- digital holography --- phase modulation --- Fourier spectra --- fast characterization --- coherent imaging --- hologram --- holography --- phase-only --- compression --- deep learning --- JPEG --- convolutional neural network --- shape from focus --- neural network --- weight passing --- computer-generated hologram --- rainbow hologram --- high resolution --- fringe printer --- wide viewing angle --- three-dimensional imaging --- multiwavelength digital holography --- color holography --- phase-shifting interferometry --- phase-shifting digital holography --- absolute phase retrieval --- phase-shift --- fringe order --- geometric constraints --- holographic solar concentrator --- holographic lens --- volume phase holographic optical elements --- near-eye display --- leaky mode --- lithium niobate --- holographic video --- augmented reality --- 3D display --- acousto-optic modulator --- laser-induced structures --- computer holography --- spatial light modulators --- diffraction gratings --- imaging systems --- digital hologram --- holographic display --- tabletop display --- hologram measurement --- ophthalmoscope --- lens design --- medical optics and biotechnology --- holographic element --- virtual reality --- 3-D optical imaging processing --- 3-D optical display --- 3-D projection integral imaging --- three-dimensional dual-view display --- shape from focus (SFF) --- jitter noise --- focus curve --- Kalman filter --- imaging --- 3D --- high-resolution episcopic microscopy --- episcopic --- phenotyping --- HREM --- tomographic diffractive microscopy (TDM) --- diffracted field --- holographic interferometry --- inverse scattering --- dual-view display --- integral imaging --- lens-array holographic optical element --- 3D imaging system --- wave field synthesis --- vergence–accommodation conflict --- lens array --- focus cue --- light field display --- holographic 3D display --- computer generated holography --- generalized phase-shifting interferometry --- slightly tilted reference --- numerical simulations --- n/a --- vergence-accommodation conflict
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Modern holographic techniques have been successfully applied in many important areas, such as 3-D inspection, 3-D microscopy, metrology, and profilometry, augmented reality, and industrial informatics. This Special Issue covers selected pieces of cutting-edge research works, ranging from low-level acquisition, to high-level analysis, processing, and manipulation of holographic information. The Special Issue also serves as a comprehensive review of existing state-of-the-art techniques in 3-D imaging and 3-D display, as well as broad insights into the future development of these disciplines. The Special Issue contains 25 papers in the field of holography, 3-D imaging, and 3-D display. All the papers underwent substantial peer review under the guidelines of Applied Sciences.
optical scanning holography --- extended depth-of-field --- automatic focus detection --- entropy minimization --- block partitioned entropy minimization --- holographic printing --- holographic stereogram --- holographic element (hogel) --- round-trip imaging --- scattering media --- 3D imaging --- transmission matrix --- spatial light modulator --- digital holography --- phase modulation --- Fourier spectra --- fast characterization --- coherent imaging --- hologram --- holography --- phase-only --- compression --- deep learning --- JPEG --- convolutional neural network --- shape from focus --- neural network --- weight passing --- computer-generated hologram --- rainbow hologram --- high resolution --- fringe printer --- wide viewing angle --- three-dimensional imaging --- multiwavelength digital holography --- color holography --- phase-shifting interferometry --- phase-shifting digital holography --- absolute phase retrieval --- phase-shift --- fringe order --- geometric constraints --- holographic solar concentrator --- holographic lens --- volume phase holographic optical elements --- near-eye display --- leaky mode --- lithium niobate --- holographic video --- augmented reality --- 3D display --- acousto-optic modulator --- laser-induced structures --- computer holography --- spatial light modulators --- diffraction gratings --- imaging systems --- digital hologram --- holographic display --- tabletop display --- hologram measurement --- ophthalmoscope --- lens design --- medical optics and biotechnology --- holographic element --- virtual reality --- 3-D optical imaging processing --- 3-D optical display --- 3-D projection integral imaging --- three-dimensional dual-view display --- shape from focus (SFF) --- jitter noise --- focus curve --- Kalman filter --- imaging --- 3D --- high-resolution episcopic microscopy --- episcopic --- phenotyping --- HREM --- tomographic diffractive microscopy (TDM) --- diffracted field --- holographic interferometry --- inverse scattering --- dual-view display --- integral imaging --- lens-array holographic optical element --- 3D imaging system --- wave field synthesis --- vergence–accommodation conflict --- lens array --- focus cue --- light field display --- holographic 3D display --- computer generated holography --- generalized phase-shifting interferometry --- slightly tilted reference --- numerical simulations --- n/a --- vergence-accommodation conflict
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