Full-parallax light-field is captured by a small-scale 3D image scanning system and applied to holographic display. A vertical camera array is scanned horizontally to capture full-parallax imagery, and the vertical vi...Full-parallax light-field is captured by a small-scale 3D image scanning system and applied to holographic display. A vertical camera array is scanned horizontally to capture full-parallax imagery, and the vertical views between cameras are interpolated by depth image-based rendering technique. An improved technique for depth estimation reduces the estimation error and high-density light-field is obtained. The captured data is employed for the calculation of computer hologram using ray-sampling plane. This technique enables high-resolution display even in deep 3D scene although a hologram is calculated from ray information, and thus it makes use of the important advantage of holographic 3D display.展开更多
A new encryption/decryption system for optical information security is proposed in this paper. We used an iterative Fourier transform algorithm to optimize the encrypted hologram as well as the decryption key as phase...A new encryption/decryption system for optical information security is proposed in this paper. We used an iterative Fourier transform algorithm to optimize the encrypted hologram as well as the decryption key as phase-only elements. The optical decryption was implemented by superimposing the encrypted hologram and the decryyption key in a simple optical setup. Numerical simulation and optical experiment have confirmed the proposed technique as a simple and easy implementation for optical decryption, demonstrating potential applications in optical information security verification.展开更多
Nowadays,holography translates from a pure technical tool for recording the phase and amplitude of the light wave to a widely applicable research-based method.Holographic devices are used for security enhancement,ente...Nowadays,holography translates from a pure technical tool for recording the phase and amplitude of the light wave to a widely applicable research-based method.Holographic devices are used for security enhancement,entertainment,3D display technologies and augmented reality.Binary computer-generated holograms(amplitude or phase-based)are of specific interest.They are easy to compute and their manufacturing methods are fast and robust.In this work,a method of manufacturing amplitude-only binary holograms out of biopolymers films is proposed.Opaque cargo bits made out of different bioactive substances(antibiotics,dyes,etc.)absorb or scatter specific parts of the incoming light wave.Cargo release was conducted by submerging the produced holograms into the aqueous solution at specific pH and temperature levels.Drug elution from the film was traced out by the numerical analysis of the far-field diffraction pattern,which otherwise could only be measured post-factum using sophisticated spectroscopic or chromatography devices.This approach broadens the application of general holography over to the field of biomedical research relevant to quantitative monitoring of the drug elution.展开更多
基金partly supported by the JSPS Grant-in-Aid for Scientific Research #17300032
文摘Full-parallax light-field is captured by a small-scale 3D image scanning system and applied to holographic display. A vertical camera array is scanned horizontally to capture full-parallax imagery, and the vertical views between cameras are interpolated by depth image-based rendering technique. An improved technique for depth estimation reduces the estimation error and high-density light-field is obtained. The captured data is employed for the calculation of computer hologram using ray-sampling plane. This technique enables high-resolution display even in deep 3D scene although a hologram is calculated from ray information, and thus it makes use of the important advantage of holographic 3D display.
文摘A new encryption/decryption system for optical information security is proposed in this paper. We used an iterative Fourier transform algorithm to optimize the encrypted hologram as well as the decryption key as phase-only elements. The optical decryption was implemented by superimposing the encrypted hologram and the decryyption key in a simple optical setup. Numerical simulation and optical experiment have confirmed the proposed technique as a simple and easy implementation for optical decryption, demonstrating potential applications in optical information security verification.
基金VVT was supported by the grant No.13.2251.21.0009 of the Ministry of Science and Higher Education of the Russian Federation(agreement No.075-15-2021-942)the work was also partly supported by the Siberian State Medical University’s development program Priority 2030.
文摘Nowadays,holography translates from a pure technical tool for recording the phase and amplitude of the light wave to a widely applicable research-based method.Holographic devices are used for security enhancement,entertainment,3D display technologies and augmented reality.Binary computer-generated holograms(amplitude or phase-based)are of specific interest.They are easy to compute and their manufacturing methods are fast and robust.In this work,a method of manufacturing amplitude-only binary holograms out of biopolymers films is proposed.Opaque cargo bits made out of different bioactive substances(antibiotics,dyes,etc.)absorb or scatter specific parts of the incoming light wave.Cargo release was conducted by submerging the produced holograms into the aqueous solution at specific pH and temperature levels.Drug elution from the film was traced out by the numerical analysis of the far-field diffraction pattern,which otherwise could only be measured post-factum using sophisticated spectroscopic or chromatography devices.This approach broadens the application of general holography over to the field of biomedical research relevant to quantitative monitoring of the drug elution.
