@inproceedings{oai:ipsj.ixsq.nii.ac.jp:00145494,
 author = {竹本, 正志 and 鈴木, 涼太 and Panthasit, Techawattanagan and 梅野, 克彦 and 矢代, 昌之 and 龍池, 哲也 and Richard, Stahl and Geert, Vanmeerbeeck and Veerle, Reumers and Andy, Lambrechts and Huys, Roeland and 三好, 健文 and 中條, 拓伯 and Masashi, Takemoto and Ryota, Suzuki and Panthasit, Techawattanagan and Katsuhiko, Umeno and Masayuki, Yashiro and Tetsuya, Ryuchi and Richard, Stahl and Geert, Vanmeerbeeck and Veerle, Reumers and Andy, Lambrechts and Huys, Roeland and Takefumi, Miyoshi and Hironori, Nakajo},
 book = {組込みシステムシンポジウム2015論文集},
 month = {Oct},
 note = {デジタルホログラフィ技術の一つである Lens Free Imager は，観察対象に投じたレーザ光による干渉波から計算処理により画像を生成するため，レンズを必要としない．光学顕微鏡とくらべて安価なシステムで複雑な形状の対象を観察・検査することが可能であり，バイオロジーや医療分野への応用が期待されている．一方で，画像生成のため計算コストが大きく，リアルタイム性に課題がある．本稿では原理検証とともに，実用化に向けたプロトタイプの設計と実装について示す．原理検証では汎用性の高い SoC を用い，アルゴリズムとコンポーネントの有用性の検証を行う．プロトタイプではパフォーマンス向上のボトルネックになる要因を探り，ターゲットとなるアプリケーションの実現に必要な評価を行った．, A Lens Free Imager, a digital holography techniques, does not require a lens. An LFI generates an image by calculation processing from the interference wave by a laser beam which is projected to observation target. Since a complex shaped subject can be observed or inspected at a low cost system in comparison with an optical microscope, applications in biology and medical fields have been expected to be evolved. Meanwhile, there is a problem that the computational cost for image generation is large. In this paper, we show the design and implementation of a prototype for practical use. Using a versatile SoC in principle verification brings verification of the usefulness of the algorithm and components. The prototype is designed to find a bottleneck in performance improvement and as well as to evaluate the final target system which is required by a practical application.},
 pages = {2--9},
 publisher = {情報処理学会},
 title = {Lens Free Imagerの実用化のための設計と実装},
 volume = {2015},
 year = {2015}
}