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
전자공학과 통합된 광학응용시스템의 새로운 카테고리로 광전자정보시스템(OEIS)이 제시된다. 서로 다른 특징적인 기술인 광학과 전자의 결합은 효과적이고 고성능의 정보 시스템 개발에 유용할 것으로 기대됩니다. 병렬성, 고속성, 대용량 정보량 등 광학 기술의 특성을 정보 처리에 활용할 수 있습니다. 일부 기능이 전자 장치에 의해 에뮬레이션되더라도 광학 장치는 더 효과적인 솔루션을 제공합니다. OEIS를 구현하기 위해 수직 공동 표면 방출 레이저 및 공간 광 변조기를 포함한 다양한 광전자 장치 및 제조 기술을 사용할 수 있습니다. OEIS의 시스템 구성에는 전자 기반 시스템에 광학을 적용하는 형태와 그 반대 형태의 두 가지 형태가 있습니다. OEIS의 예로 PMA(Parallel Matching Architecture)와 TOMBO(Thin Observation Module by Bound Optics)가 제시됩니다. PMA는 전역 처리를 위해 지정된 병렬 컴퓨팅 시스템의 아키텍처입니다. 이 아키텍처는 전자 기술의 유연성과 함께 광 상호 연결 기능을 활용하는 일반적인 전략을 보여줍니다. TOMBO는 광학 기술과 전자 기술을 결합하여 형태학적 변환 가능성을 제시합니다. 복안 이미징 시스템과 사후 디지털 처리를 통해 매우 얇은 이미지 캡처 시스템을 실현할 수 있습니다. OEIS 개발과 관련된 이슈로는 광학의 적절한 활용, 광학과 전자 기술의 효과적인 융합, 시스템 구축 방법론, 제작 지원 도구, 통신 및 상호접속 분야 이외의 매력적인 실증기 개발 등이 있다.
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Jun TANIDA, Keiichiro KAGAWA, Kenji YAMADA, "Opto-Electronic Integrated Information System" in IEICE TRANSACTIONS on Electronics,
vol. E84-C, no. 12, pp. 1778-1784, December 2001, doi: .
Abstract: As a new category of the optical application system integrated with electronics, the opto-electronic information system (OEIS) is presented. Combination of the different characteristic technologies, optics and electronics, is expected to be useful for development of an effective and high-performance information systems. The properties of the optical technologies such as parallelism, high-speed, and large information capacity can be utilized for information processing. Even if some of the functions are emulated by the electronics, the optics give more effective solutions. To implement the OEIS, various optoelectronic devices and fabrication technologies are available including vertical cavity surface emitting lasers and spatial light modulators. There are two forms of system construction for the OEIS: an application of optics to an electronic-based system and the reversed form. As examples of the OEIS, the parallel matching architecture (PMA) and the thin observation module by bound optics (TOMBO) are presented. The PMA is an architecture of parallel computing system specified for global processing. This architecture shows a typical strategy to utilize the optical interconnection capability with flexibility of the electronic technology. The TOMBO presents possibility of morphological conversion using combination of the optical and electronic technologies. A compound-eye imaging system and post digital processing enable us to realize a very thin image capturing system. The issues related on development of the OEIS are proper usage of optics, effective fusion of the optical and electronic technologies, methodologies for system construction, fabrication supporting tools, and development of attractive demonstrators other than communication and interconnection fields.
URL: https://global.ieice.org/en_transactions/electronics/10.1587/e84-c_12_1778/_p
부
@ARTICLE{e84-c_12_1778,
author={Jun TANIDA, Keiichiro KAGAWA, Kenji YAMADA, },
journal={IEICE TRANSACTIONS on Electronics},
title={Opto-Electronic Integrated Information System},
year={2001},
volume={E84-C},
number={12},
pages={1778-1784},
abstract={As a new category of the optical application system integrated with electronics, the opto-electronic information system (OEIS) is presented. Combination of the different characteristic technologies, optics and electronics, is expected to be useful for development of an effective and high-performance information systems. The properties of the optical technologies such as parallelism, high-speed, and large information capacity can be utilized for information processing. Even if some of the functions are emulated by the electronics, the optics give more effective solutions. To implement the OEIS, various optoelectronic devices and fabrication technologies are available including vertical cavity surface emitting lasers and spatial light modulators. There are two forms of system construction for the OEIS: an application of optics to an electronic-based system and the reversed form. As examples of the OEIS, the parallel matching architecture (PMA) and the thin observation module by bound optics (TOMBO) are presented. The PMA is an architecture of parallel computing system specified for global processing. This architecture shows a typical strategy to utilize the optical interconnection capability with flexibility of the electronic technology. The TOMBO presents possibility of morphological conversion using combination of the optical and electronic technologies. A compound-eye imaging system and post digital processing enable us to realize a very thin image capturing system. The issues related on development of the OEIS are proper usage of optics, effective fusion of the optical and electronic technologies, methodologies for system construction, fabrication supporting tools, and development of attractive demonstrators other than communication and interconnection fields.},
keywords={},
doi={},
ISSN={},
month={December},}
부
TY - JOUR
TI - Opto-Electronic Integrated Information System
T2 - IEICE TRANSACTIONS on Electronics
SP - 1778
EP - 1784
AU - Jun TANIDA
AU - Keiichiro KAGAWA
AU - Kenji YAMADA
PY - 2001
DO -
JO - IEICE TRANSACTIONS on Electronics
SN -
VL - E84-C
IS - 12
JA - IEICE TRANSACTIONS on Electronics
Y1 - December 2001
AB - As a new category of the optical application system integrated with electronics, the opto-electronic information system (OEIS) is presented. Combination of the different characteristic technologies, optics and electronics, is expected to be useful for development of an effective and high-performance information systems. The properties of the optical technologies such as parallelism, high-speed, and large information capacity can be utilized for information processing. Even if some of the functions are emulated by the electronics, the optics give more effective solutions. To implement the OEIS, various optoelectronic devices and fabrication technologies are available including vertical cavity surface emitting lasers and spatial light modulators. There are two forms of system construction for the OEIS: an application of optics to an electronic-based system and the reversed form. As examples of the OEIS, the parallel matching architecture (PMA) and the thin observation module by bound optics (TOMBO) are presented. The PMA is an architecture of parallel computing system specified for global processing. This architecture shows a typical strategy to utilize the optical interconnection capability with flexibility of the electronic technology. The TOMBO presents possibility of morphological conversion using combination of the optical and electronic technologies. A compound-eye imaging system and post digital processing enable us to realize a very thin image capturing system. The issues related on development of the OEIS are proper usage of optics, effective fusion of the optical and electronic technologies, methodologies for system construction, fabrication supporting tools, and development of attractive demonstrators other than communication and interconnection fields.
ER -