• Investigative Magnetic Resonance Imaging
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• 제10권2호
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• pp.108-116
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• 2006

목적 : 3.0 Tesla 고 자장에서 고 해상도 나선주사영상을 수행하였다. 나선주사영상은 초고속 영상기법의 하나로서, Echo Planar Imaging(EPI)에 비하여 eddy current 가 작게 발생하고, 경사자계 파형의 기울기가 완만하여 상대적으로 낮은 slew rate 를 가진 경사자계시스템으로 구현이 가능한 장점이 있다. 또한 고 자장 영상에서 고속스핀에코(Fast Spin Echo: FSE) 등의 rf 에코 기반의 고속영상방법에서 심각하게 대두되는 SAR 문제가 근원적으로 발생하지 않는 장점이 있어 고 자장에서의 초고속영상방법으로 주목을 받고 있다. 본 연구에서는 3.0 Tesla 에서 나선주사방식으로 고 해상도 영상을 얻어 고 자장 MRI에서 나선주사영상기법의 다양한 응용 가능성을 살펴보고자 한다. 대상 및 방법 : 3 Tesla 전신 자기 공명 영상 시스템에서 다양한 해상도의 나선주사영상 방법을 개발하였다. 고차(higher-order) shimming 을 통하여 영상의 화질을 개선하였고, 해상도에 맞게 interleaves 수를 조절하였다. 스핀에코 와 gradient에코 기반 나선주사영상방법을 구현하였고, 에코 time 과 repetition time, rf 회전 각도를 조절하여 영상의 대조도(contrast)와 신호대잡음비를 조절하였다. 결과 : 3 Tesla 전신 자기 공명 영상 시스템에서 나선 주사 방법을 이용하여 다양한 해상도의 영상을 얻었다. 고 자장에서 주 자장의 불균일도(inhomogeneity) 의 절대 크기가 커지기 때문에 이를 줄이기 위한 shimming 이 더욱 중요해진다. 한번의 스캔으로 axial, sagittal, coronal 방향의 불균일도 map을 구하여 spherical harmonics 분석으로 고차 shimming을 하였다. 팬텀과 in-vivo 두부 영상에서 single shot 나선주사 영상으로 $100{\times}100$ 정도의 영상과 6-12 정도의 interleaves 를 적용하여 $256{\times}256$ 의 고 해상도 영상을 얻을 수 있었다. 결론 : 신호대잡음비의 향상과 스펙트럼의 분리, 뇌기능영상에서 BOLD 효과 향상 등으로 고자장 영상에 대한 관심이 높아지고 있다. 그러나 고 자장 영상에서의 rf field 에 의한 SAR 증가는 중요한 제한 요소로 부각되고 있다. 나선주사영상은 SAR 문제가 근원적으로 발생하지 않고, EPI에 비하여 하드웨어 요구 조건이 낮아 고 자장에서의 고속영상방법으로 적합하다. 본 논문에서는 고차 shimming 을 통하여 불균일도를 개선하고, single shot 과 interleaving 을 적용한 multi-shot 나선주사영상 기법으로 $100{\times}100$에서 $256{\times}256$의 고해상도 영상을 얻어 고 자장에서 초고속영상기법으로 다양한 적용 가능성을 보였다.

• 대한의용생체공학회:의공학회지
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• 제9권1호
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• pp.125-130
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• 1988

In the conventional infrared imaging system, complex infrared lens systems are usually used for directing collimated narrow infrared beams into the high speed 2-dimensional optic scanner. In this paper, a simple reflective infrared optic system with a 2-dimensional optic scanner is proposed for the realization of medical infrared thermography system. It has been experimentally proven that the intfrared thermography system composed of the proposed optic system has the temperature resolution of $0.1^{\circ}C$ under the spatial resolution of lmrad, the image matrix size of $256 {\times} 240, $ and tile imaging time of 4 seconds.

• 한국가시화정보학회지
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• 제3권1호
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• pp.71-77
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• 2005

Information on temporal evolution of whole velocity fields are essential for physical understanding of a complicated turbulent flow. Due to advances of high-speed imaging technique, laser and electronics, high-speed digital cameras and high-repetition pulse lasers are commercially available in nowadays. A dynamic PIV system that can measure consecutive instantaneous velocity field with 1K$\times$ 1K pixels resolution at 1 fps was developed. It consists of a high-speed CMOS camera and a high-repetition Nd:YLF pulse laser. Theoretically, it can capture velocity fields at 20 fps with a reduced spatial resolution. In order to validate its performance, the dynamic PIV system was applied to a turbulent jet of which Reynolds number is about 3000. The particle images of 1024$\times$512 pixels were captured at a sampling rate of 4 KHz. The dynamic PIV system measured successfully the temporal evolution of instantaneous velocity fields of the turbulent jet, from which spectral analysis of turbulent structure was also feasible.

• 한국의학물리학회지:의학물리
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• 제5권1호
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• pp.13-24
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• 1994

고속촬영이 요구되는 일반적인 적외선 촬영시스템에서는 고속 광주사기에 적외선 광다발을 입력시키기 위해 고가이면서 가공이 어려운 적외선대역 렌즈를 사용하고 있다. 본 논문에서는 고속 촬영이 요구되지 않고 0.1$^{\circ}C$이하의 온도분해능이 크게 요구되는 의료용 적외선 체열촬영 시스템을 저가이면서 가공이 용이한 반사경을 이용한 광학계를 써서 구현하는 방법을 결과와 함께 제시하였다. 적외선 체열촬영시스템은 인체의 표피에서 복사되는 적외선의 양을 계측하여 인체의 표피 온도분포를 2차원 영상으로 보여준다. 구현한 적외선 체열촬영시스템으로 실험한 결과 영상의 화소수를 256$\times$240으로 하고 촬영시간을 4초로 했을 때 온도분해능이 0.1$^{\circ}C$이하인 것을 확인하였다. 인체의 여러 부위에 대한 체열 영상을 시각적으로 잘 보이게 하기 위해 16가지색으로 의사색체화를 하여 예시하였다.

• Investigative Magnetic Resonance Imaging
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• 제25권4호
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• pp.229-251
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• 2021

Arteriosclerosis is the leading cause of stroke, with a fatality rate surpassing that of ischemic heart disease. High-resolution vessel wall magnetic resonance imaging is generally recognized as a non-invasive and panoramic method for the evaluation of arterial plaque; however, this method requires improved signal-to-noise ratio and scanning speed. Recent advances in high-density head and neck coil arrays are characterized by broad coverage, multiple channels, and closefitting designs. This review analyzes fast magnetic resonance imaging from the perspective of accelerated algorithms for vessel wall imaging and demonstrates the need for effective algorithms for signal acquisition using advanced radiofrequency system. We summarize different phased-array structures under various experimental objectives and equipment conditions, introduce current research results, and propose prospective research studies in the future.

• Current Optics and Photonics
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• 제2권6호
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• pp.595-605
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• 2018

The two-photon process of microscopy provides good spatial resolution and optical sectioning ability when observing quasi-static endogenous fluorescent tissue within an in vivo animal model skin. In order to extend the use of such systems, we developed a two-photon laser scanning microscopy system capable of also capturing $512{\times}512$ pixel images at 90 frames per second. This was made possible by incorporating a 72 facet polygon mirror which was mounted on a 55 kRPM motor to enhance the fast-scan axis speed in the horizontal direction. Using the enhanced temporal resolution of our high-speed two-photon laser scanning microscope, we show that rapid processes, such as fluorescently labeled erythrocytes moving in mouse blood flow at up to 1.2 mm/s, can be achieved.

• 조명전기설비학회논문지
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• 제23권11호
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• pp.22-27
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• 2009

This paper presents a two-paralleled four quadrant DC chopper type PWM power conversion circuit in order to generate a gradient magnetic field in the Magnetic Resonance Imaging (MRI) system. This circuit has 8-IGBTs at their inputs/outputs to realize further high-power density, high speed current tracking control, and to get a low switching ripple amplitude in a controlled current in the Gradient Coils (GCs). Moreover, the power conversion circuit has to realize quick rise/fall response characteristics in proportion to various target currents in GCs. It is proposed in this paper that a unique control scheme can achieve the above objective DSP-based control system realize a high control facility and accuracy. It is proved that the new control system will greatly enlarge the diagnostic target and improve the image quality of MRI.

• 센서학회지
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• 제21권3호
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• pp.217-222
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• 2012

Optical coherence tomography(OCT) is a noninvasive optical imaging tool for biomedical applications. OCT can provide depth resolved two/three dimensional morphological images on biological samples. In this paper, we integrated an OCT system that was composed of an SLED(Superluminescent Light Emitting Diode, ${\lambda}_0$=1305 nm bandwith= 141 nm), a reference arm adopting a rapid scanning optical delay line(RSOD) to get high speed imaging, and a sample arm that used a micro electro mechanical systems(MEMS) scanning mirror. The sample arm contained a compact probe for imaging dental structures. The performance of the system was evaluated by imaging in-vivo human teeth with dental calculus, and the results indicated distinct appearance of dental calculus from enamel, gum or decayed teeth. The developed probe and system could successfully confirm the presence of dental calculus with a very high spatial resolution($6{\mu}m$).

• 대한전자공학회:학술대회논문집
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• 대한전자공학회 1998년도 추계종합학술대회 논문집
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• pp.449-452
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• 1998

In this study, the basic image-board and algorithm has been developed to extract a road lane by modeling the driving process. The high speed processing enables an image capture, processing and prompt decision making. In order to high speed processing ASIC like FPGA was designed and integrated in one board system. The algorithm enabling road driving must recognize a straight and bend edge separately. The high speed image processing board using FPGA can be used in real-time decision makeing system for road driving and in the machine vision under bad working environments like a coal mine. And it also can be used in the safety control system in subway and in image input system of CCTV and CATV by designing the board to meet various user's needs.

• Current Optics and Photonics
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• 제7권2호
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• pp.176-182
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• 2023

Optical coherence tomography (OCT) is being developed to guide various ophthalmic surgical procedures. However, the high cost of the intraoperative OCT system limits its availability mostly to the largest hospitals and healthcare systems. In this paper, we present a design and evaluation of a low-cost intraoperative common-path free-hand scanning OCT system. The lensed fiber imaging probe is designed and fabricated for intraocular use and the free-hand scanning algorithm that could operate at a low scanning speed was developed. Since the system operates at low frequencies, the cost of the overall system is significantly lower than other commercial intraoperative OCT systems. The assembled system is characterized and shows that it meets the design specifications. The handheld OCT imaging probe is tested on multilayer tape phantom and ex-vivo porcine eyes. The results show that the system could be used as an intraoperative intraocular OCT imaging device.