• Korean Journal of Optics and Photonics
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• v.23 no.5
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• pp.189-196
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• 2012

A floating optical system is a system that moves more than 2 groups to focus at the camera lens. At the camera optics, the floating system that is mainly used is an optical system such as a macro lens which changes magnification very much. When the floating system is assembled and fabricated in the factory, there are differences between the image plane of the sensor and the focal plane of the infinity or macro state. Therefore, in a considerable proportion of cases, the focus adjustment to minimize the difference of BWD(Back Working Distance) is carried out in the process of manufacturing. In this paper, in order to decide the movement of each group in a floating system, we evaluated the rotation angle of CAM for the focus adjustment. We know that the maximum magnification of macro state is corrected by this numerical method for the focus adjustment, too. We investigated the limit of CAM rotation angle of the system by using statistical analysis for CAM rotation angle, which uses the focus adjustment of the floating system with symmetric error factors.

• Korean Journal of Optics and Photonics
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• v.29 no.1
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• pp.19-27
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• 2018

A change in object distance would generally change the magnification of an optical system. In this paper, we have proposed and designed a double-Gauss optical system with a fixed magnification and image surface regardless of any change in object distance, according to moving the lens groups a little bit to the front and rear of the stop, independently parallel to the direction of the optical axis. By maintaining a constant size of image formation in spite of various object-distance changes in a projection system such as a head-up display (HUD) or head-mounted display (HMD), we can prevent the field of view from changing while focusing in an HUD or HMD. Also, to check precisely the state of the wiring that connects semiconductor chips and IC circuit boards, we can keep the magnification of the optical system constant, even when the object distance changes due to vertical movement along the optical axis of a testing device. Additionally, if we use this double-Gauss optical system as a vision system in the testing process of lots of electronic boards in a manufacturing system, since we can systematically eliminate additional image processing for visual enhancement of image quality, we can dramatically reduce the testing time for a fast test process. Also, the Gaussian bracket method was used to find the moving distance of each group, to achieve the desired specifications and fix magnification and image surface simultaneously. After the initial design, the optimization of the optical system was performed using the Synopsys optical design software.

• The Optical Journal
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• s.125
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• pp.47-49
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• 2010

한국광학기기협회에서 발행하는 광학세계지는 20여 년 동안 협회 및 회원사의 충실한 대변자로서 역할을 수행해왔다. 광학세계는 광학산업을 대변하는 종합 전문지로서 시장정보, 기술 정보, 해외동향, 업계동정 등 관련 정보 및 소식을 전하며 광학산업 발전에 이바지해왔다. 이에 협회는 광학산업 발전과 관련해 광학세계의 역할과 과제를 되새겨 보고 관련업계 종사자들로부터 더욱 사랑받는 전문지로 거듭나기 위해 편집위원회를 구성하고 지난 12월 2일 산업계, 학계, 연구계 전문가를 초청하여 간담회를 개최하였다.

• The Optical Journal
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• s.141
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• pp.18-20
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• 2012

"내일 지구가 멸망하더라도 나는 오늘 한 그루의 사과나무를 심겠다" 17세기 네델란드 태생의 철학자인 바뤼흐 스피노자가 이렇게 말했다고 한다. 그는 유럽의 대표적인 합리주의 철학자로 인정받으며 '에티카'를 통해 서양철학계에 커다란 화두를 던지기도 했다. 하지만 스피노자의 직업은 잘 알려져 있지 않았다. 그의 직업은 좀 색다르다. 그는 당시로는 파격적인 사상을 지닌 덕에 유대사회에서 추방됐고 카톨릭은 그의 모든 서적을 금서로 지정했다. 결국 스피노자는 렌즈를 가공하는 일로 생계를 유지하게 된다. 현대적 관점에서 보면 직가공에 의한 구면렌즈 가공이 이미 17세기 이전에 일반화된 것이다. 현대의 광학계 가공은 스피노자의 시대와는 비교할 수 없을 만큼의 다양한 기술적 발전에 힘입어 고정밀화, 비구면화, 양산화의 방향으로 진행되고 있다. 특히 성형 방식에 의한 비구면 렌즈 제조는 관련 분야의 핵심 기술이 되고 있으며 최근에는 적외선 렌즈에도 적용되고 있다.

• Proceedings of the Korean Nuclear Society Conference
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• 1997.05b
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• pp.549-554
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• 1997

원자력발전소 중기발생기 전열관 sleeve의 레이저 보수용접은 원자로 외부의 레이저 광원을 sleeve 내부의 용접 head까지 광섬유로 수백 미터를 전송하여 수행된다. 전열관 레이저용접은 용접 중의 레이저출력, 레이저 전송 광학계의 파손여부, 광학계의 정렬상태 등을 정확히 감시하여 수행하여야 하지만, 작업공간의 협소함과 방사능 구역이라는 어려움 때문에 실시간 감시가 쉽지 않다. 본 연구에서는 광섬유 전송 광학계와 지시용 레이저를 이용하여, 광섬유의 끝단에서 반사된 레이저 빔을 이용하여 광섬유 상태를 실시간 감시할 수 있음을 실험적으로 확인하였다. 실험은 core 직경 800um 의 step index 레이저 전송용 광섬유를 사용하였으며, 광섬유 끝단에 물등의 불순물이 있을 경우와 광섬유가 파손되었을 경우의 감시결과를 얻어, 광섬유 광학계의 실시간 감시가 가능함을 보였다.

• Korean Journal of Optics and Photonics
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• v.32 no.1
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• pp.15-21
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• 2021

In this paper, an aircraft warning light's optical system was designed using an LED light-source module and a collimating Fresnel lens. As for the optical system, a collimator Fresnel lens was designed for each module to satisfy a vertical-elevation center luminous intensity of 20,000 cd and the divergence-angle luminous-intensity standard conditions of the Ministry of Land for Infrastructure and Transport for aircraft warning lights. In addition, the optical system was optimized by adjusting the position and tilt of the LED light-source module and Fresnel lens. By analyzing and comparing the light-distribution characteristics of the optical system, an aircraft-warning-light optical system with optimal performance was obtained.

• Korean Journal of Optics and Photonics
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• v.14 no.3
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• pp.236-243
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• 2003

We discussed the design of lens module schematic eyes equivalent to finite model eyes, which are used to model the human eye based on spherical aberration and Stiles-Crowford effect. The optical system for head mounted display (HMD) is designed and evaluated using lens module schematic eyes. In addition to a compact HMD system, an optical system with high Performance is required. To satisfy these requirements, we used diffractive optical elements and aspheric surfaces so that the color and mono-chromatic aberrations were corrected. The optical system for HMD is composed of 0.47 inch micro-display of SVGA grade with 480,000 pixels, a plastic hybrid lens for the virtual image, and the lens module schematic eyes. The designed optical system fulfills the current specifications of HMD: such as, EFL of 31.25 mm, FOV of 24H$\times$18V$\times$30D degrees, and overall length of 59.1 mm. As a result, we could design an optical system useful for HMD; the system is expected to be comfortable while the user wears it.

• The Optical Journal
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• s.168
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• pp.13-17
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• 2017

한국광학기기산업협(회장 이을성)는 지난 2월 13일부터 17일까지 4박 5일간 산업통상자원부와 한 일 산업기술협력재단의 지원을 받아 2017년도 일본 첨단광학계 기술연수 및 기술상담회를 개최하였다.

• Korean Journal of Optics and Photonics
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• v.18 no.4
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• pp.246-255
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• 2007

The floating image system (FIS) is a device to display input source in the space between fast surface of the display and an observer and it provides pseudo 3D depth to an observer when input source as real object or 2D image was displayed through the optical lens system in the FIS. The Advanced floating image system (AFIS) was designed to give more effective 3D depth than existing FIS by adding front and rear depth cues to the displayed stereogram, which it was used as input source. The magnitude of disparity and size of stereogram were strongly related each other and they have been optimized for presenting 3D depths in a non-optical lens systems. Thus, if they were used in optical lens system, they will have reduced or magnified parameters, leading to problem such as providing incorrect 3D depth cues to an observer. Although the size of stereogram and disparity were demagnified by total magnifying power of optical system, the viewing distance (VD) from the display to an observer and base distance (BD) for the gap between the eyes were fixed. For this reason, the quantity of disparity in displayed stereogram through the existing FIS has not kept the magnifying power to the total optical system. Therefore, we proposed the methods to provide correct 3D depth to an observer by compensating quantity of disparity in stereogram which was satisfied to keep total magnifying power of optical lenses system by AFIS. Consequently, the AFIS provides a good floating depth (pseudo 3D) with correct front and rear 3D depth cues to an observer.

• Proceedings of the Optical Society of Korea Conference
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• 2002.11a
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• pp.206-207
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• 2002