• 한국인터넷방송통신학회논문지
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• 제21권5호
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• pp.161-166
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• 2021

적외선 영상 시스템으로 야외에서 다양한 영상에 대하여 테스트를 할 때 테스트 한 영상을 저장하여 비교확인이 필요하다. 야외에서 시험을 하기 때문에 휴대성이 간편해야 하며 장시간의 영상을 저장하여야 하기 때문에 많은 저장공간이 필요로 한다. 또한 시험 이후에 쉽게 PC와 접속하여 저장된 데이터를 다운로드 받을 수 있어야 한다. 최근 메모리 시스템의 발전으로 쉽게 On Board 형태로 사용할 수 있는 eMMC 메모리를 활용하여 야외시험용 적외선 영상 저장보드를 설계할 수 있다. 본 논문에서는 적외선 영상을 쉽게 저장하고 다운받을 수 있는 휴대가 간편한 영상 저장보드 설계에 대하여 설명하고 PC와 접속하여 저장된 영상을 다운 받을 수 있는 GUI 프로그램에 대하여 설명한다.

• 대한원격탐사학회:학술대회논문집
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• 대한원격탐사학회 2005년도 Proceedings of ISRS 2005
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• pp.298-300
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• 2005

Satellite payload on-board date compression unit are use for saving date storage space and reducing time to transmit payload data to the ground station. The KOMPSAT-3 payload will generate higher data rate than KOMPSAT-2 due to its better ground sample distance capacity. High input data rate and limited output transmission data rate might lead excessive compression and degraded image quality. This paper presents a trade-off study about data storage capacity and compression parameters for estimated KOMPSAT-3 system.

• 대한원격탐사학회:학술대회논문집
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• 대한원격탐사학회 2005년도 Proceedings of ISRS 2005
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• pp.478-481
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• 2005

The PMU (Payload Management Unit) is the main subsystem for the management, control and power supply of the MSC (Multi-Spectral Camera) Payload operation. It is the most important function for the electro-optical camera system that performs the Non-Uniformity Correction (NUC) function of the raw imagery data, rearranges the data from the CCD (Charge Coupled Device) detector and output it to the Data Compression and Storage Unit (DCSU). The NUC board in PMU performs it. In this paper, the NUC board system is described in terms of the configuration and the function, the efficiency for non-uniformity correction, and the influence of the data compression upon the peculiar feature of the CCD pixel. The NUC board is an image-processing unit within the PMU that receives video data from the CEV (Camera Electronic Unit) boards via a hotlinkand performs non-uniformity corrections upon the pixels according to commands received from the SBC (Single Board Computer) in the PMU. The lossy compression in DCSU needs the NUC in on-orbit condition.

• 대한의용생체공학회:의공학회지
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• 제18권2호
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• pp.121-126
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• 1997

Endoscopy has become a crucial diagnostic and therapeutic procedure in clinical areas. Over the past three years, we have developed a computerized system to record and store clinical data pertaining to endoscopic surgery of laparascopic cholecystectomy, pelviscopic endometriosis, and surgical arthroscopy. In this study, we developed a computer system, which is composed of a frame yabber, a sound board, a VCR control board, a LAN card and EDMS(endoscopic data management software. Also, computer system has controled peripheral instruments such as a color video printer, a video cassette recorder, and endoscopic input/output signals(image and doctor's comment). Digital endoscopic data management system is based on open architecture and a set of widely available industry standards, namely: windows 3.1 as a operating system, TCP/IP as a network protocol and a time sequence based database that handles both images and doctor's cotnments. For the purpose of data storage, we used MOD and CD-R. Digital endoscopic system was designed to be able to store, recreate, change, and compress signals and medical images.

• 전자공학회논문지SC
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• 제44권4호통권316호
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• pp.27-34
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• 2007

본 논문에서는 마이크로소프트사의 Windows CE 운영체제를 기반으로 한 소형의 모바일 시스템의 카메라 영상 획득을 위한 디바이스 드라이버에 관하여 살펴본다. 또한 NAND 플래시 메모리에 획득된 이미지를 저장하기 위하여 FAT 파일 시스템을 사용하였으며 NAND 메모리 특성을 반영한 FAT 파일 시스템에 대하여 다루어 본다. 영상획득을 위하여서 픽셀플러스사의 CMOS 카메라 모듈과 아지시스템에서 개발한 MBA2440 PDA 개발보드를 이용하여 하드웨어를 구현하였다. 이 카메라 모쥴은 VGA $640{\times}480$ 픽셀의 해상도를 지니고 있으며, 영상획득 속도 및 영상의 화질을 테스트하기 위한 디바이스 드라이버의 성능을 테스트 할 수 있는 응용 프로그램도 함께 제작하였다. 실험을 통하여 영상 획득을 위한 디바이스 드라이버와 FAT 파일 시스템을 이용하여 NAND 플래시 메모리에 획득한 영상을 저장하는 응용프로그램이 상호 잘 작동을 함을 확인하였다.

• 보존과학회지
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• 제38권1호
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• pp.1-13
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• 2022

Colour consistency is an important consideration when selecting pigments used on works of art. In this study, we analyse the colour difference between two sets of synthetic blue glass pigments acquired at least 8 years apart from the same manufacturer in Japan. The old pigment set (unused, dry powder with four different grain sizes) appears faded compared to the new set. These pigments are made available for artistic use, commonly in Nihonga or Japanese paintings. Raman spectroscopy and SEM-EDS results characterize these pigments as cobalt aluminate spinels dissolved in leaded glaze, a special class of complex coloured inorganic pigments that is not well-understood in the field of conservation. Colour difference between the old and new pigments with four different grain sizes were quantified by analysing photomicrographs with image analysis software. Blue pigments with coarse and extremely fine grains showed significant colour change compared to pigments with medium and fine grain sizes. The high occurrence of crystallites in the finer grains give a final colour that is bluer and lighter. Possible causes for the colour difference including manufacturing methods and storage environment are discussed.

• 한국측량학회지
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• 제14권1호
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• pp.17-25
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• 1996

스틸비디오 CCD카메라는 수치영상의 획득과정이 크게 단순화되어 컴퓨터에 직접 연결되지 않고도 독립적으로 수치영상을 획득하여 자체내에 영상을 저장할 수 있는 융통성을 갖추고 있다. 본 연구에서는 각종 산업분야에서 요구되는 품질검사, 구조물의 모니터 링 등에 스틸비디오 카메라를 이용한 수치근접사진측량 시스템의 수행성을 평가하고자 하였다. 수치 영상측정 에서 필수적 인 sub-pixel 측정기 법을 제시하고, 고해상도의 DCS420 스틸비디오 카메라에 대한 기하학적 자체검정 및 구조물에 대한 시험측정을 실시하였다. 자체검정 광속조정의 결과 1:46,000을 초과하는 대상공간 정확도를 얻을 수 있었으며 산업적 음용에 수치영상을 이용한 본 근접사진측량 시스템의 정확도 잠재성과 작업의 효율성을 입증할 수 있었다.

• 대한원격탐사학회:학술대회논문집
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• 대한원격탐사학회 1999년도 Proceedings of International Symposium on Remote Sensing
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• pp.375-380
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• 1999

Ocean Scanning Multispectral Imager (OSMI) is a payload on the KOMPSAT satellite to perform worldwide ocean color monitoring for the study of biological oceanography. The instrument images the ocean surface using a wisk-broom motion with a swath width of 800 km and a ground sample distance (GSD) of<1km over the entire field of view (FOV). The instrument is designed to have an on-orbit operation duty cycle of 20% over the mission lifetime of 3 years with the functions of programmable gain/offset and on-board image data compression/storage. The instrument also performs sun and dark calibration for on-board instrument calibration. The OSMI instrument is a multi-spectral imager covering the spectral range from 400nm to 900nm using CCD Focal Plane Array (FPA). The ocean colors are monitored using 6 spectral channels that can be selected via ground commands. KOMPSAT satellite with OSMI was integrated and the satellite level environment tests and instrument aliveness/functional test as well, such as launch environment, on-orbit environment (Thermal/vacuum) and EMl/EMC test were performed at KARI. Test results met the requirements and the OSMI data were collected and analyzed during each test phase. The instrument is launched on the KOMPSAT satellite in the late 1999 and the image is scheduled to start collecting ocean color data in the early 2000 upon completion of on-orbit instrument checkout.

• 대한원격탐사학회:학술대회논문집
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• 대한원격탐사학회 1998년도 Proceedings of International Symposium on Remote Sensing
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• pp.319-324
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• 1998

Ocean Scanning Multispectral Imager (OSMI) is a payload on the Korean Multi-purpose SATellite (KOMPSAT) to perform worldwide ocean color monitoring for the study of biological oceanography. The instrument images the ocean surface using a whisk-broom motion with a swath width of 800 km and a ground sample distance (GSD) of < 1 km over the entire field-of-view (FOV). The instrument is designed to have an on-orbit operation duty cycle of 20% over the mission lifetime of 3 years with the functions of programmable gain/offset and on-board image data storage. The instrument also performs sun calibration and dark calibration for on-board instrument calibration. The OSMI instrument is a multi-spectral imager covering the spectral range from 400 nm to 900 nm using a CCD Focal Plane Array (FPA). The ocean colors are monitored using 6 spectral channels that can be selected via ground commands after launch. The instrument performances are fully measured for 8 basic spectral bands centered at 412nm, 443nm, 490nm, 510nm, 555nm, 670nm, 765nm and 865nm during ground characterization of instrument. In addition to the ground calibration, the on-board calibration will also be used for the on-orbit band selection. The on-orbit band selection capability can provide great flexibility in ocean color monitoring.

• 대한원격탐사학회:학술대회논문집
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• 대한원격탐사학회 1998년도 Proceedings of International Symposium on Remote Sensing
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• pp.313-318
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• 1998

Electro-Optical Camera(EOC) is the main payload of Korea Multi-Purpose SATellite(KOMPSAT) with the mission of cartography to build up a digital map of Korean territory including Digital Terrain Elevation Map(DTEM). This instrument which comprises EOC Sensor Assembly and EOC Electronics Assembly produces the panchromatic images of 6.6 m GSD with a swath wider than 17 km by push-broom scanning and spacecraft body pointing in a visible range of wavelength, 510 ~ 730 nm. The high resolution panchromatic image is to be collected for 2 minutes during 98 minutes of orbit cycle covering about 800 km along ground track, over the mission lifetime of 3 years with the functions of programmable rain/offset and on-board image data storage. The image of 8 bit digitization, which is collected by a full reflective type F8.3 triplet without obscuration, is to be transmitted to Ground Station at a rate less than 25 Mbps. EOC was elaborated to have the performance which meets or surpasses its requirements of design phase. The spectral response the modulation transfer function, and the uniformity of all the 2592 pixel of CCD of EOC are illustrated as they were measured for the convenience of end-user. The spectral response was measured with respect to each gain setup of EOC and this is expected to give the capability of generating more accurate panchromatic image to the EOC data users. The modulation transfer function of EOC was measured as greater than 16% at Nyquist frequency over the entire field of view which exceeds its requirement of larger than 10%, The uniformity that shows the relative response of each pixel of CCD was measured at every pixel of the Focal Plane Array of EOC and is illustrated for the data processing.