• Journal of Welding and Joining
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• 제21권2호
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• pp.102-110
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• 2003

A visual sensor consisted of polygonal mirror, laser, and CCD camera was proposed to measure the distance to the weld joint for recognizing the joint shape. To scan the laser beam of the sensor onto an object, 8-facet polygonal mirror was used as the rotating mirror. By locating the laser and the camera at axi-symmetrical positions around the mirror, the synchronized-scan condition could be satisfied even when the mirror was set to rotate through one direction continuously, which could remove the inertia effect of the conventional oscillating-mirror methods. The mathematical modelling of the proposed sensor with the optical triangulation method made it possible to derive the relation between the position of an image on the camera and the one of a laser light on the object. Through the geometrical simulation of the proposed sensor with the principal of reflection and virtual image, the optical path of a laser light could be predicted. The position and direction of the CCD camera were determined based on the Scheimpflug's condition to fit the focus of any image reflected from an object within the field of view. The results of modelling and simulation revealed that the proposed visual sensor could be used to recognize the weld joint and its vicinity located within the range of the field of view and the resolution. (Received February 19, 2003)

• 한국광학회지
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• 제5권2호
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• pp.212-216
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• 1994

원적외선 영역인 $8-12.\mu$m 대역의 열상장비 주사광학계를 설계 제작하였다. 검출기로 5개 소자의 SP-RITE HgCdTe를 사용하는 직병렬 주사를 위해 수평 및 수직주사에는 각각 회전다면거울과 진동평면거울을 사용하였으며, 주사연결거울로는 구면거울을 사용하여 주사거울의 크기 및 입사동에서의 동수차를 최소화 하였다. 주사광학계는 $40^{\circ}\times26.67^{\circ}$의 넓은 주사시야를 갖는다. 회절 변조전달함수의 계산결과 회절한계의 성능을 만족하였으며 제작 및 시험 결과 고분해능의 열영상을 얻을 수 있었다.

• 대한원격탐사학회지
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• 제27권3호
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• pp.369-377
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• 2011

Since well-calibrated satellite data is critical for their applications, calibration and validation of COMS science data was one of the key activities during the IOT. COMS MI radiometric calibration process was divided into two phases according to the out-gassing of the sensor: calibrations of the visible (VI) and infrared (IR) channels. Different from the VIS calibration, the calibration steps for the IR channels followed additional processes to secure their radiometric performances. Primary calibration steps of the IR were scan mirror emissivity correction, midnight effect compensation, slope averaging and 1/f noise compensation after a nominal calibration. First, the scan mirror emissivity correction was conducted to compensate the variability of the scan mirror emissivity driven by the coating material on the scan mirror. Second, the midnight effect correction was performed to remove unreasonable high spikes of the slope values caused by the excessive radiative sources during the local midnight. After these steps, the residual (difference between the previous slope and the given slope) was filtered by a smoothing routine to eliminate the remnant random noises. The 1/f noise compensation was also carried out to filter out the lower frequency noises caused from the electronics in the Imager. With through calibration processes during the entire IOT period, the calibrated IR data showed excellent performances.

• 항공우주기술
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• 제10권1호
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• pp.156-166
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• 2011

천리안위성은 대한민국 최초의 정지궤도 지구관측위성으로써 기상탑재체와 해양탑재체를 이용하여 24시간 지구관측 임무를 수행한다. 위성은 궤도상 시험을 성공적으로 완료하고 2011년 4월부터 정상운영 중이다. 본 논문에서는 천리안위성 기상탑재체의 스캔미러 방사율 보정 알고리즘 및 이의 소프트웨어 구현에 대해서 설명한다.

• 정보저장시스템학회논문집
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• 제7권2호
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• pp.85-89
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• 2011

In retrieving process in angle multiplexing Holographic Data Storage(HDS), It is important to search the exact recording angles. In this paper, we propose the retrieving angle searching method using pre-scan. Pre-scan method is means that rotating the galvano mirror before the retrieving process. Therefore, retrieving signals are maximized when between the galvano mirror and recoded angle are exactly matched. Through the measured signals, we will find the exact angle and compensate tangential tilt angle. The experimental results shows propose method is enough to apply the HDS.

• 전자공학회논문지
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• 제50권8호
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• pp.94-102
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• 2013

선형 배열 안테나의 구조가 배열 안테나의 중심을 기준으로 대칭 구조인 점을 이용하여 효율적으로 배열 안테나의 빔 주사각에 따른 방사패턴을 계산할 수 있는 mirror AEP (active element pattern) 방법을 제안한다. Mirror AEP 방법은 AEP 방법과 비교하여 배열 안테나의 방사패턴을 계산하기 위하여 필요한 full-wave 전산모의를 이용하여 구하는 소자의 AEP 수를 약반으로 줄일 수 있기 때문에 계산 시간을 약 반으로 줄일 수 있다. 배열 안테나를 구성하는 단위 안테나 소자의 방사패턴이 대칭인 경우에는 mirror AEP 방법으로 계산한 방사패턴과 full-wave 전산모의를 이용하여 구한 방사패턴과의 차이가 넓은 빔 주사각 범위에서 매우 작았다.

• 한국정밀공학회지
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• 제33권6호
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• pp.459-467
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• 2016

Using a line scan camera and a Galvano mirror, we constructed a high-speed line-scanning microscope that can generate 2D images ($8000{\times}8000pixels$) without any moving parts. The line scanner consists of a Galvano mirror and a cylindrical lens, which creates a line focus that sweeps over the sample. The measured resolutions in the x (perpendicular to line focus) and y (parallel to line focus) directions are both $2{\mu}m$, with a 2X scan lens and a 3X relay lens. This optical system is useful for measuring defects, such as spalling, chipping, delamination, etc., on the surface of carbon fiber reinforced plastic (CFRP) holes after machining in conjunction with adjustments in the angle of LED lighting. Defects on the inner wall of holes are measured by line confocal laser scanning. This confocal method will be useful for analyzing defects after CFRP machining and for fast 3D image reconstruction.

• 대한원격탐사학회지
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• 제23권1호
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• pp.55-58
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• 2007

The prototype radiometric calibration algorithm of the imagers for IR channels has been developed according to the Weinreb's method. Applying the algorithm to the GOES-12 count data, we have shown that the calibration coefficients (slope and intercept) evaluated by the algorithm gives good agreement with the NESDIS's ones, and that the scanning error due to the scan mirror emissivity and stripe error are almost eliminated by the East/West angle dependent scan-mirror correction and the respective calculation of intercept for each North/South scan line, respectively.

• 한국정밀공학회지
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• 제25권7호
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• pp.19-26
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• 2008

• 제어로봇시스템학회논문지
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• 제11권5호
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• pp.406-410
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• 2005

A depth measurement system that consists of a single camera, a laser light source and a rotating mirror is investigated. The camera and the light source are fixed, facing the rotating mirror. The laser light is reflected by the mirror and projected to the scene objects whose locations are to be determined. The camera detects the laser light location on object surfaces through the same mirror. The scan over the area to be measured is done by mirror rotation. Advantages are 1) the image of the light stripe remains sharp while that of the background becomes blurred because of the mirror rotation and 2) the only rotating part of this system is the mirror but the mirror angle is not involved in depth computation. This minimizes the imprecision caused by a possible inaccurate angle measurement. The detail arrangement and experimental results are reported.