| Title | Immersive 360 Holoscopic 3D system design |
| Publication Type | Conference Paper |
| Year of Publication | 2017 |
| Authors | Hosseini, S., Swash, M. R., Sadka, A. |
| Conference Name | 2017 4th International Conference on Signal Processing and Integrated Networks (SPIN) |
| Keywords | 360 Camera, 360-degree holoscopic 3D imaging system design, 3D depth, 3D parallax, 3D stitching, camera separation baseline, Cameras, composability, Fly's eye technique, H3D Imaging, holoscopic 3D camera, Holoscopic 3D image, Holoscopic 3D Imaging, Human Behavior, immersive 360 holoscopic 3D system design, immersive 3D acquisition, immersive systems, integral image, Lenses, microlens array, microlenses, Microoptics, panoramic 3D image, pubcrawl, Resiliency, Signal processing, single aperture camera, spatial image, stereo image processing, stereoscopic 3D imaging, Three-dimensional displays |
| Abstract | 3D imaging has been a hot research topic recently due to a high demand from various applications of security, health, autonomous vehicle and robotics. Yet Stereoscopic 3D imaging is limited due to its principles which mimics the human eye technique thus the camera separation baseline defines amount of 3D depth can be captured. Holoscopic 3D (H3D) Imaging is based on the "Fly's eye" technique that uses coherent replication of light to record a spatial image of a real scene using a microlens array (MLA) which gives the complete 3D parallax. H3D Imaging has been considered a promising 3D imaging technique which pursues the simple form of 3D acquisition using a single aperture camera therefore it is the most suited for scalable digitization, security and autonomous applications. This paper proposes 360-degree holoscopic 3D imaging system design for immersive 3D acquisition and stitching. |
| DOI | 10.1109/SPIN.2017.8049968 |
| Citation Key | hosseini_immersive_2017 |
Immersive 360 Holoscopic 3D system design