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Your search keyword '"Hirayama, Ryuji"' showing total 144 results
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144 results on '"Hirayama, Ryuji"'

1. Computational ghost imaging using deep learning

Author

Shimobaba, Tomoyoshi, Endo, Yutaka, Nishitsuji, Takashi, Takahashi, Takayuki, Nagahama, Yuki, Hasegawa, Satoki, Sano, Marie, Hirayama, Ryuji, Kakue, Takashi, Shiraki, Atsushi, and Ito, Tomoyoshi

Subjects
Computer Science - Computer Vision and Pattern Recognition, Physics - Optics
Abstract

Computational ghost imaging (CGI) is a single-pixel imaging technique that exploits the correlation between known random patterns and the measured intensity of light transmitted (or reflected) by an object. Although CGI can obtain two- or three- dimensional images with a single or a few bucket detectors, the quality of the reconstructed images is reduced by noise due to the reconstruction of images from random patterns. In this study, we improve the quality of CGI images using deep learning. A deep neural network is used to automatically learn the features of noise-contaminated CGI images. After training, the network is able to predict low-noise images from new noise-contaminated CGI images.

Published
2017
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2. Fast, large-scale hologram calculation in wavelet domain

Author

Shimobaba, Tomoyoshi, Matsushima, Kyoji, Takahashi, Takayuki, Nagahama, Yuki, Hasegawa, Satoki, Sano, Marie, Hirayama, Ryuji, Kakue, Takashi, and Ito, Tomoyoshi

Subjects
Computer Science - Graphics, Physics - Optics
Abstract

We propose a large-scale hologram calculation using WAvelet ShrinkAge-Based superpositIon (WASABI), a wavelet transform-based algorithm. An image-type hologram calculated using the WASABI method is printed on a glass substrate with the resolution of $65,536 \times 65,536$ pixels and a pixel pitch of $1 \mu$m. The hologram calculation time amounts to approximately 354 s on a commercial CPU, which is approximately 30 times faster than conventional methods.

Published
2017
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3. Deep-learning-based data page classification for holographic memory

Author

Shimobaba, Tomoyoshi, Kuwata, Naoki, Homma, Mizuha, Takahashi, Takayuki, Nagahama, Yuki, Sano, Marie, Hasegawa, Satoki, Hirayama, Ryuji, Kakue, Takashi, Shiraki, Atsushi, Takada, Naoki, and Ito, Tomoyoshi

Subjects
Computer Science - Computer Vision and Pattern Recognition, Computer Science - Learning, Computer Science - Neural and Evolutionary Computing, Physics - Optics
Abstract

We propose a deep-learning-based classification of data pages used in holographic memory. We numerically investigated the classification performance of a conventional multi-layer perceptron (MLP) and a deep neural network, under the condition that reconstructed page data are contaminated by some noise and are randomly laterally shifted. The MLP was found to have a classification accuracy of 91.58%, whereas the deep neural network was able to classify data pages at an accuracy of 99.98%. The accuracy of the deep neural network is two orders of magnitude better than the MLP.

Published
2017
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4. Inkjet printing-based volumetric display projecting multiple full-colour 2D patterns

Author

Hirayama, Ryuji, Suzuki, Tomotaka, Shimobaba, Tomoyoshi, Shiraki, Atsushi, Naruse, Makoto, Nakayama, Hirotaka, Kakue, Takashi, and Ito, Tomoyoshi

Subjects
Computer Science - Multimedia, Computer Science - Graphics
Abstract

In this study, a method to construct a full-colour volumetric display is presented using a commercially available inkjet printer. Photoreactive luminescence materials are minutely and automatically printed as the volume elements, and volumetric displays are constructed with high resolution using easy-to-fabricate means that exploit inkjet printing technologies. The results experimentally demonstrate the first prototype of an inkjet printing-based volumetric display composed of multiple layers of transparent films that yield a full-colour three-dimensional (3D) image. Moreover, we propose a design algorithm with 3D structures that provide multiple different 2D full-colour patterns when viewed from different directions and experimentally demonstrates prototypes. It is considered that these types of 3D volumetric structures and their fabrication methods based on widely deployed existing printing technologies can be utilised as novel information display devices and systems, including digital signage, media art, entertainment and security.

Published
2017

5. Autoencoder-based holographic image restoration

Author

Shimobaba, Tomoyoshi, Endo, Yutaka, Hirayama, Ryuji, Nagahama, Yuki, Takahashi, Takayuki, Nishitsuji, Takashi, Kakue, Takashi, Shiraki, Atsushi, Takada, Naoki, Masuda, Nobuyuki, and Ito, Tomoyoshi

Subjects
Computer Science - Computer Vision and Pattern Recognition, Physics - Optics
Abstract

We propose a holographic image restoration method using an autoencoder, which is an artificial neural network. Because holographic reconstructed images are often contaminated by direct light, conjugate light, and speckle noise, the discrimination of reconstructed images may be difficult. In this paper, we demonstrate the restoration of reconstructed images from holograms that record page data in holographic memory and QR codes by using the proposed method.

Published
2016
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8. Improvement of the image quality of random phase--free holography using an iterative method

Author

Shimobaba, Tomoyoshi, Kakue, Takashi, Endo, Yutaka, Hirayama, Ryuji, Hiyama, Daisuke, Hasegawa, Satoki, Nagahama, Yuki, Sano, Marie, Oikawa, Minoru, Sugie, Takashige, and Ito, Tomoyoshi

Subjects
Physics - Optics, Computer Science - Multimedia
Abstract

Our proposed method of random phase-free holography using virtual convergence light can obtain large reconstructed images exceeding the size of the hologram, without the assistance of random phase. The reconstructed images have low-speckle noise in the amplitude and phase-only holograms (kinoforms); however, in low-resolution holograms, we obtain a degraded image quality compared to the original image. We propose an iterative random phase-free method with virtual convergence light to address this problem.

Published
2015

9. Random phase-free kinoform for large objects

Author

Shimobaba, Tomoyoshi, Kakue, Takashi, Endo, Yutaka, Hirayama, Ryuji, Hiyama, Daisuke, Hasegawa, Satoki, Nagahama, Yuki, Sano, Marie, Sugie, Takashige, and Ito, Tomoyoshi

Subjects
Physics - Optics
Abstract

We propose a random phase-free kinoform for large objects. When not using the random phase in kinoform calculation, the reconstructed images from the kinoform are heavy degraded, like edge-only preserved images. In addition, the kinoform cannot record an entire object that exceeds the kinoform size because the object light does not widely spread. In order to avoid this degradation and to widely spread the object light, the random phase is applied to the kinoform calculation; however, the reconstructed image is contaminated by speckle noise. In this paper, we overcome this problem by using our random phase-free method and error diffusion method.

Published
2015
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10. Optical encryption for large-sized images using random phase-free method

Author

Shimobaba, Tomoyoshi, Kakue, Takashi, Endo, Yutaka, Hirayama, Ryuji, Hiyama, Daisuke, Hasegawa, Satoki, Nagahama, Yuki, Sano, Marie, Sugie, Takashige, and Ito, Tomoyoshi

Subjects
Physics - Optics, Computer Science - Cryptography and Security
Abstract

We propose an optical encryption framework that can encrypt and decrypt large-sized images beyond the size of the encrypted image using our two methods: random phase-free method and scaled diffraction. In order to record the entire image information on the encrypted image, the large-sized images require the random phase to widely diffuse the object light over the encrypted image; however, the random phase gives rise to the speckle noise on the decrypted images, and it may be difficult to recognize the decrypted images. In order to reduce the speckle noise, we apply our random phase-free method to the framework. In addition, we employ scaled diffraction that calculates light propagation between planes with different sizes by changing the sampling rates.

Published
2015

11. Ptychography by changing the area of probe light and scaled ptychography

Author

Shimobaba, Tomoyoshi, Kakue, Takashi, Okada, Naohisa, Endo, Yutaka, Hirayama, Ryuji, Hiyama, Daisuke, and Ito, Tomoyoshi

Subjects
Physics - Optics, Physics - Data Analysis, Statistics and Probability
Abstract

Ptychography is a promising phase retrieval technique for visible light, X-ray and electron beams. Conventional ptychography reconstructs the amplitude and phase of an object light from a set of the diffraction intensity patterns obtained by the X-Y moving of the probe light. The X-Y moving of the probe light requires two control parameters and accuracy of the locations. We propose ptychography by changing the area of the probe light using only one control parameter, instead of the X-Y moving of the probe light. The proposed method has faster convergence speed. In addition, we propose scaled ptychography using scaled diffraction calculation in order to magnify retrieved object lights clearly.

Published
2014
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12. Non-uniform sampled scalar diffraction calculation using non-uniform fast Fourier transform

Author

Shimobaba, Tomoyoshi, Kakue, Takashi, Oikawa, Minoru, Okada, Naohisa, Endo, Yutaka, Hirayama, Ryuji, and Ito, Tomoyoshi

Subjects
Physics - Optics
Abstract

Scalar diffraction calculations such as the angular spectrum method (ASM) and Fresnel diffraction, are widely used in the research fields of optics, X-rays, electron beams, and ultrasonics. It is possible to accelerate the calculation using fast Fourier transform (FFT); unfortunately, acceleration of the calculation of non-uniform sampled planes is limited due to the property of the FFT that imposes uniform sampling. In addition, it gives rise to wasteful sampling data if we calculate a plane having locally low and high spatial frequencies. In this paper, we developed non-uniform sampled ASM and Fresnel diffraction to improve the problem using the non-uniform FFT.

Published
2013
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13. Calculation reduction method for color computer-generated hologram using color space conversion

Author

Shimobaba, Tomoyoshi, Kakue, Takashi, Oikawa, Minoru, Takada, Naoki, Okada, Naohisa, Endo, Yutaka, Hirayama, Ryuji, and Ito, Tomoyoshi

Subjects
Physics - Optics, Computer Science - Graphics
Abstract

We report a calculation reduction method for color computer-generated holograms (CGHs) using color space conversion. Color CGHs are generally calculated on RGB space. In this paper, we calculate color CGHs in other color spaces: for example, YCbCr color space. In YCbCr color space, a RGB image is converted to the luminance component (Y), blue-difference chroma (Cb) and red-difference chroma (Cr) components. In terms of the human eye, although the negligible difference of the luminance component is well-recognized, the difference of the other components is not. In this method, the luminance component is normal sampled and the chroma components are down-sampled. The down-sampling allows us to accelerate the calculation of the color CGHs. We compute diffraction calculations from the components, and then we convert the diffracted results in YCbCr color space to RGB color space.

Published
2013
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14. Gigapixel inline digital holographic microscopy using a consumer scanner

Author

Shimobaba, Tomoyoshi, Yamanashi, Hiroya, Kakue, Takashi, Oikawa, Minoru, Okada, Naohisa, Endo, Yutaka, Hirayama, Ryuji, Masuda, Nobuyuki, and Ito, Tomoyoshi

Subjects
Physics - Optics
Abstract

We demonstrate a gigapixel inline digital holographic microscopy using a consumer scanner. The consumer scanner can maximally scan an A4 size image (297mm x 210mm) with 4800 dpi (= 5.29 um), theoretically achieving a resolution of 56,144 x 39,698 = 2.22 gigapixels. The system using a consumer scanner has a simple structure, compared with synthetic aperture digital holography using a camera mounted on a two-dimensional moving stage. In this demonstration, we captured an inline hologram with 23,602 x 18,023 pixels (= 0.43 gigapixels). In addition, to accelerate the reconstruction time of the gigapixel hologram and decrease the amount of memory for the reconstruction, we applied the band-limited double-step Fresnel diffraction to the reconstruction.

Published
2013

17. A volumetric display for visual, tactile and audio presentation using acoustic trapping

Author

Hirayama, Ryuji, Martinez Plasencia, Diego, Masuda, Nobuyuki, and Subramanian, Sriram

Subjects
Three-dimensional display systems -- Design and construction -- Properties, Ultrasonic waves -- Usage, Vision -- Usage, Touch -- Usage, 3D technology, Environmental issues, Science and technology, Zoology and wildlife conservation
Abstract

Science-fiction movies portray volumetric systems that provide not only visual but also tactile and audible three-dimensional (3D) content. Displays based on swept-volume surfaces.sup.1,2, holography.sup.3, optophoretics.sup.4, plasmonics.sup.5 or lenticular lenslets.sup.6 can create 3D visual content without the need for glasses or additional instrumentation. However, they are slow, have limited persistence-of-vision capabilities and, most importantly, rely on operating principles that cannot produce tactile and auditive content as well. Here we present the multimodal acoustic trap display (MATD): a levitating volumetric display that can simultaneously deliver visual, auditory and tactile content, using acoustophoresis as the single operating principle. Our system traps a particle acoustically and illuminates it with red, green and blue light to control its colour as it quickly scans the display volume. Using time multiplexing with a secondary trap, amplitude modulation and phase minimization, the MATD delivers simultaneous auditive and tactile content. The system demonstrates particle speeds of up to 8.75 metres per second and 3.75 metres per second in the vertical and horizontal directions, respectively, offering particle manipulation capabilities superior to those of other optical or acoustic approaches demonstrated until now. In addition, our technique offers opportunities for non-contact, high-speed manipulation of matter, with applications in computational fabrication.sup.7 and biomedicine.sup.8. A volumetric display that can simultaneously deliver visual, tactile and auditory content is demonstrated., Author(s): Ryuji Hirayama [sup.1] , Diego Martinez Plasencia [sup.1] , Nobuyuki Masuda [sup.2] , Sriram Subramanian [sup.1] Author Affiliations: (1) School of Engineering and Informatics, University of Sussex, Brighton, UK [...]

Published
2019
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21. Optical encryption for large-sized images

Author

Sanpei, Takuho, Shimobaba, Tomoyoshi, Kakue, Takashi, Endo, Yutaka, Hirayama, Ryuji, Hiyama, Daisuke, Hasegawa, Satoki, Nagahama, Yuki, Sano, Marie, Oikawa, Minoru, Sugie, Takashige, and Ito, Tomoyoshi

Published
2016
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30. GS-PAT

Author

Plasencia, Diego Martinez, primary, Hirayama, Ryuji, additional, Montano-Murillo, Roberto, additional, and Subramanian, Sriram, additional

Published
2020
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46. Autoencoder-based holographic image restoration

Author

Shimobaba, Tomoyoshi, primary, Endo, Yutaka, additional, Hirayama, Ryuji, additional, Nagahama, Yuki, additional, Takahashi, Takayuki, additional, Nishitsuji, Takashi, additional, Kakue, Takashi, additional, Shiraki, Atsushi, additional, Takada, Naoki, additional, Masuda, Nobuyuki, additional, and Ito, Tomoyoshi, additional

Published
2017
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47. Holographic microinformation hiding

Author

Shimobaba, Tomoyoshi, primary, Endo, Yutaka, additional, Hirayama, Ryuji, additional, Hiyama, Daisuke, additional, Nagahama, Yuki, additional, Hasegawa, Satoki, additional, Sano, Marie, additional, Takahashi, Takayuki, additional, Kakue, Takashi, additional, Oikawa, Minoru, additional, and Ito, Tomoyoshi, additional

Published
2017
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