T
Takanori Senoh
Researcher at National Institute of Information and Communications Technology
Publications - 47
Citations - 822
Takanori Senoh is an academic researcher from National Institute of Information and Communications Technology. The author has contributed to research in topics: Holography & Depth map. The author has an hindex of 13, co-authored 47 publications receiving 703 citations.
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Journal ArticleDOI
Projection-type see-through holographic three-dimensional display.
Koki Wakunami,Po Yuan Hsieh,Ryutaro Oi,Takanori Senoh,Hisayuki Sasaki,Yasuyuki Ichihashi,Makoto Okui,Yi-Pai Huang,Kenji Yamamoto +8 more
TL;DR: A projection-type holographic three-dimensional display is shown, in which a digitally designed holographic optical element and a digital holographic projection technique are combined to increase both factors at the same time.
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Large size three-dimensional video by electronic holography using multiple spatial light modulators
TL;DR: A newly devised space-saving image-readout optical system for multiple reflection-type SLMs to increase the size of three-dimensional (3D) images that are displayed using electronic holography.
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Image Size Scalable Full-parallax Coloured Three-dimensional Video by Electronic Holography
TL;DR: The experimental device constructed was able to perform video playback in colour of full parallax holographic three-dimensional images with an image size of 63 mm and a viewing-zone angle of 5.6 degrees without losing any part of the 3D image.
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Real-time capture and reconstruction system with multiple GPUs for a 3D live scene by a generation from 4K IP images to 8K holograms
TL;DR: An integrated system for performing all processing from the capture to the reconstruction of 3D images by using these components is developed and successfully used this system to reconstruct a 3D live scene at 12 frames per second.
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3D objects enlargement technique using an optical system and multiple SLMs for electronic holography.
TL;DR: This paper used an optical system and 9 SLMs to construct a device equivalent to an SLM with approximately 74,600,000 pixels and used this to reconstruct 3D objects in both the horizontal and vertical parallax with an image size of 63 mm without losing any part of3D objects.