The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. ex. Some numerals are expressed as "XNUMX".
Copyrights notice
The original paper is in English. Non-English content has been machine-translated and may contain typographical errors or mistranslations. Copyrights notice
Realiti visual imej holografik telah bertambah baik dengan berkesan dengan menggunakan prosedur pembinaan semula pelbagai warna. Fakta ini boleh digunakan pada paparan tiga dimensi masa nyata untuk hologram janaan komputer (CGH). Walau bagaimanapun, agak sukar untuk menjana CGH untuk pengimejan pelbagai warna dalam masa nyata kerana CGH pada asasnya mengandungi sejumlah besar maklumat, dan meningkatkan maklumat lanjut yang dihasilkan dengan mendarabkan bilangan warna utama untuk pengimejan pelbagai warna. Selain itu, sistem optik adalah agak rumit untuk pembinaan semula imej pelbagai warna. Dalam makalah ini, kaedah baharu dibentangkan untuk membina semula imej berbilang warna tiga dimensi daripada CGH. Dalam kaedah ini, tiga sub-hologram untuk membina semula imej warna primer masing-masing diambil sampel untuk mengurangkan jumlah pengiraan dan merealisasikan sistem optik mudah. Corak pinggir dipaparkan oleh hanya satu modulator cahaya spatial (SLM) dan imej crosstalk warna dihapuskan oleh sistem penapisan warna untuk memastikan setiap sub-hologram hanya boleh diterangi oleh cahaya dengan warna yang sesuai. Kaedah pengimejan pelbagai warna daripada CGH dicadangkan dan juga keputusan eksperimen ditunjukkan.
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Salinan
Hideya TAKAHASHI, Kenji YAMADA, Eiji SHIMIZU, "Approach to the Multicolor Imaging from Computer Generated Hologram" in IEICE TRANSACTIONS on Electronics,
vol. E83-C, no. 10, pp. 1650-1656, October 2000, doi: .
Abstract: The visual reality of a holographic image has improved effectively by utilizing multicolor reconstruction procedure. This fact is applicable to a real-time three-dimensional display for a computer generated hologram (CGH). However, it is quite difficult to generate a CGH for multicolor imaging in real-time because a CGH contains essentially a huge amount of information, and increases further information produced by multiplying the number of primary colors for multicolor imaging. Moreover, the optical system is considerably complicated for the multicolor image reconstruction. In this paper, a new method is presented to reconstruct a three dimensional multicolor image from a CGH. In this method, three sub-holograms to reconstruct the primary color images are sampled respectively for reducing the amount of computation and realizing a simple optical system. Fringe patterns are displayed by only one spatial light modulator (SLM) and color crosstalk images are eliminated by a color filtering system for ensuring that each sub-hologram can be only illuminated by the light with an appropriate color. A multicolor imaging method from a CGH is proposed and also the experimental results are shown.
URL: https://global.ieice.org/en_transactions/electronics/10.1587/e83-c_10_1650/_p
Salinan
@ARTICLE{e83-c_10_1650,
author={Hideya TAKAHASHI, Kenji YAMADA, Eiji SHIMIZU, },
journal={IEICE TRANSACTIONS on Electronics},
title={Approach to the Multicolor Imaging from Computer Generated Hologram},
year={2000},
volume={E83-C},
number={10},
pages={1650-1656},
abstract={The visual reality of a holographic image has improved effectively by utilizing multicolor reconstruction procedure. This fact is applicable to a real-time three-dimensional display for a computer generated hologram (CGH). However, it is quite difficult to generate a CGH for multicolor imaging in real-time because a CGH contains essentially a huge amount of information, and increases further information produced by multiplying the number of primary colors for multicolor imaging. Moreover, the optical system is considerably complicated for the multicolor image reconstruction. In this paper, a new method is presented to reconstruct a three dimensional multicolor image from a CGH. In this method, three sub-holograms to reconstruct the primary color images are sampled respectively for reducing the amount of computation and realizing a simple optical system. Fringe patterns are displayed by only one spatial light modulator (SLM) and color crosstalk images are eliminated by a color filtering system for ensuring that each sub-hologram can be only illuminated by the light with an appropriate color. A multicolor imaging method from a CGH is proposed and also the experimental results are shown.},
keywords={},
doi={},
ISSN={},
month={October},}
Salinan
TY - JOUR
TI - Approach to the Multicolor Imaging from Computer Generated Hologram
T2 - IEICE TRANSACTIONS on Electronics
SP - 1650
EP - 1656
AU - Hideya TAKAHASHI
AU - Kenji YAMADA
AU - Eiji SHIMIZU
PY - 2000
DO -
JO - IEICE TRANSACTIONS on Electronics
SN -
VL - E83-C
IS - 10
JA - IEICE TRANSACTIONS on Electronics
Y1 - October 2000
AB - The visual reality of a holographic image has improved effectively by utilizing multicolor reconstruction procedure. This fact is applicable to a real-time three-dimensional display for a computer generated hologram (CGH). However, it is quite difficult to generate a CGH for multicolor imaging in real-time because a CGH contains essentially a huge amount of information, and increases further information produced by multiplying the number of primary colors for multicolor imaging. Moreover, the optical system is considerably complicated for the multicolor image reconstruction. In this paper, a new method is presented to reconstruct a three dimensional multicolor image from a CGH. In this method, three sub-holograms to reconstruct the primary color images are sampled respectively for reducing the amount of computation and realizing a simple optical system. Fringe patterns are displayed by only one spatial light modulator (SLM) and color crosstalk images are eliminated by a color filtering system for ensuring that each sub-hologram can be only illuminated by the light with an appropriate color. A multicolor imaging method from a CGH is proposed and also the experimental results are shown.
ER -