• Korean Journal of Radiology
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• 제25권1호
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• pp.74-85
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• 2024

Objective: Idiopathic intracranial hypertension (IIH) is a condition of unknown etiology associated with venous sinus stenosis. This study aimed to develop a magnetic resonance venography (MRV)-based radiomics model for predicting a high trans-stenotic pressure gradient (TPG) in IIH patients diagnosed with venous sinus stenosis. Materials and Methods: This retrospective study included 105 IIH patients (median age [interquartile range], 35 years [27-42 years]; female:male, 82:23) who underwent MRV and catheter venography complemented by venous manometry. Contrast enhanced-MRV was conducted under 1.5 Tesla system, and the images were reconstructed using a standard algorithm. Shape features were derived from MRV images via the PyRadiomics package and selected by utilizing the least absolute shrinkage and selection operator (LASSO) method. A radiomics score for predicting high TPG (≥ 8 mmHg) in IIH patients was formulated using multivariable logistic regression; its discrimination performance was assessed using the area under the receiver operating characteristic curve (AUROC). A nomogram was constructed by incorporating the radiomics scores and clinical features. Results: Data from 105 patients were randomly divided into two distinct datasets for model training (n = 73; 50 and 23 with and without high TPG, respectively) and testing (n = 32; 22 and 10 with and without high TPG, respectively). Three informative shape features were identified in the training datasets: least axis length, sphericity, and maximum three-dimensional diameter. The radiomics score for predicting high TPG in IIH patients demonstrated an AUROC of 0.906 (95% confidence interval, 0.836-0.976) in the training dataset and 0.877 (95% confidence interval, 0.755-0.999) in the test dataset. The nomogram showed good calibration. Conclusion: Our study presents the feasibility of a novel model for predicting high TPG in IIH patients using radiomics analysis of noninvasive MRV-based shape features. This information may aid clinicians in identifying patients who may benefit from stenting.

• 비파괴검사학회지
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• 제25권5호
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• pp.339-342
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• 2005

광섬유 센서 구성을 위한 장주기 광섬유 격자(Long-Period Fiber Grating, LPFG)는 코어 모드로 진행하는 빔이 위상 정합 조건(Phase Matching Condition)에 의해 특정 파장에서 클래딩 모드와 커플링이 일어나는 광소자이다. 공진 파장과 커플링의 세기는 온도, 스트레인, 주변 굴절 지수 등에 의해 민감하게 변화하는 특성을 이용하여 광섬유 센서에 넓게 응응될 수 있다 일반적으로 광섬유 격자는 광섬유 코어를 자외선에 노출시킴으로서 굴절률의 주기적인 변화가 유도되는 원리, 즉 광민감성 (Photosensitivity)에 기초를 두고 있으며 광민감성을 가진 격자제조용 광섬유 제작은 광섬유 격자 연구에 대단히 중요한 부분이다. 이 논문에서는 보론 첨가의 양에 의한 코어와 클래딩의 굴절률 차 변화와 그것에 따른 장주기 광섬유 격자의 온도 및 구부림 특성 변화를 분석하였다. 보론의 양이 증가할수록 코어와 클래딩의 굴절률 차가 줄어드는 것$(1.69{\times}10^{-4}/SCCM)$을 실험을 통해 알 수 있었고, 그로 인해 보론의 음의 온도 의존성으로 인해 장주기 광섬유 격자의 온도 의존성이 억제됨$(0.01145nm/^{\circ}C/SCCM)$을 확인할 수 있었다. 또한, 보론의 증가로 인해 코어와 클래딩의 굴절률차가 줄어들수록 장주기 광섬유 격자는 구부림에 더 민감함을 알 수 있었다.

• 대한치과보철학회지
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• 제49권2호
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• pp.128-137
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• 2011

연구 목적: 자기공명주파수 분석, 페리오테스트, 풀림 토크는 임플란트의 안정성을 측정하기 위한 방법으로 알려져 있다. 이 방법들은 골 상태와 임플란트 형태에 영향을 받는다. 본 연구에서는 골유착이 재현된 아크릴 레진 실험 모델에서 임플란트가 결합된 골의 양을 변화하고 경부의 골 상실양이 증가하였을 경우, 자기공명주파수 분석, 페리오테스트, 풀림 토크 측정에 어떠한 영향을 주는지 알아보고 이들 상호간의 관계를 알아보고자 하였다. 연구 재료 및 방법: 골 유착을 재현하기 위하여 임플란트를 알루미늄 틀에 나사로 고정한 후 자가중합형 아크릴릭 레진의 가루와 용액을 틀 안에 부어서 중합을 시켰다. 임플란트와 결합된 레진의 두께를 조정하여 골 결합 두께를 각각 1, 3, 5, 10 mm인 경우로 재현하였다. 그 후 임플란트 주변 경부 골 상실 양이 1, 3, 5 mm인 경우를 재현하였다. 각각의 재현된 골 조건에서는 4 mm 직경의 직선형 임플란트, 같은 직경의 tapered 형 임플란트, 5 mm 직경의 tapered 형의 3가지 임플란트가 각각 5개씩 사용되었다. 모든 골 조건에서 자기공명주파수 분석과 페리오테스트 측정이 이루어졌으며 골 결합 두께 1, 3 mm 시편에서는 풀림 토크가 측정되었다. 결과: 골 결합 두께가 증가하거나 임플란트 직경이 증가할수록 통계적으로 유의하게 ISQ 값은 증가하였고, 페리오테스트 값은 감소하였다 (P<.001, P<.001). 임플란트 경부에 주위 골 상실 양이 커질수록 ISQ 값은 감소하였고, 페리오테스트 값은 증가하였다 (P<.001). ISQ 값과 페리오테스트 t값은 매우 강한 상관관계를 나타냈다 (r = -0.99, P<.001). ISQ값과 풀림토크는 약한 상관관계를 나타냈으며 (r = 0.52, P<.001), 페리오테스트 값과 풀림 토크도 약한 상관관계를 나타냈다 (r = -0.52, P<.001). 결론: 레진으로 재현한 골의 양이 증가할수록, 임플란트의 직경이 증가할수록, 경부의 골 상실양이 적을수록 임플란트 안정성이 증가함을 확인할 수 있었다. 또한 본 연구에서는 ISQ 값과 페리오테스트 값의 강한 상관관계를 밝힐 수 있었다.

• Ocean and Polar Research
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• 제30권4호
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• pp.453-466
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• 2008

In order to examine the generation mechanism of long ocean waves along the west coast of Korea and to understand the amplification process of the long ocean waves, sea level, atmospheric pressure and wind data observed every minute from 2007 March 29 to 2007 April 1 were analyzed and onedimensional numerical ocean model experiments were performed. An atmospheric pressure jump propagated southeastward from Backryungdo to Yeonggwang along the west coast of Korea with speed of $13{\sim}27\;m/s$ between 2007 March 30 23:00 and 2007 April 1 1:30. Average magnitude of pressure jump was 4.2 hPa. As a moving atmospheric jump propagated from north to south along the coast, long ocean waves were generated and the sea level abnormally rose or fell at Anheung, Kunsan, Wido and Yeonggwang. Average amplitude of sea level rise (or fall) was about 113.6 cm. In a one-dimensional numerical ocean model, nonlinear shallow water equations were numerically integrated and a moving atmospheric pressure jump with traveling speed of 24 m/s was used as an external force. While the atmospheric pressure jump travels over 60 m depth ocean, a long ocean wave is generated. Because the propagation speed of the atmospheric jump is almost equal to that of the long ocean wave, Proudman resonance occurs and the long ocean wave amplifies. As the atmospheric pressure jump moves into the coastal area shallower than 60 m, the speed of the long ocean wave decreases and Proudman resonance effect decreases. However, the amplitude of the long ocean wave increases and wave length becomes shorter because of shoaling effect. When the long ocean wave hits the land boundary, amplitude of the long ocean wave drastically amplifies due to reflection. Data analysis and numerical experiments suggest that the southeastward propagation of an atmospheric pressure jump over the shallow ocean, which is a necessary condition for Proudaman resonance, generated the long ocean waves along the west coast of Korea on 2007 March 31 and the ocean waves amplified due to shoaling effect in the coastal area and reflection at the shore.

• 한국전자파학회논문지
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• 제22권9호
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• pp.912-918
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• 2011

본 논문에서는 도파관의 차단 주파수 이상에서 평형 조건을 만족하는 CRLH(Composite Right-/Left-Handed) 직각 도파관이 설계되었다. 제안된 CRLH 도파관 구조는 특정 주파수에서 음의 유효 투자율 특성을 나타내는 하나의 단락 스터브와 음의 유효 유전율을 구현하는 두 개의 꼬인 형태의 H-plane 아이리스로 구성된다. 도파관 내부에 삽입된 꼬인 형태의 H-plane 아이리스는 단락 스터브와 아이리스 사이의 상호 작용을 최소화하여 RH(Right-Handed) 대역과 LH(Left-Handed) 대역의 밴드 갭을 조절하는 직렬 및 병렬 공진 주파수를 독립적으로 제어할 수 있으므로, 평형 조건을 만족하는 CRLH 도파관의 설계가 가능하다. 설계된 CRLH 도파관 구조의 해석을 위하여 교차 결합된 등가 회로가 제시되었고, 시뮬레이션 및 측정 결과로 부터 차단 주파수 이상에서 RH 대역과 LH 대역 사이에 밴드 갭이 존재하지 않는 평형 조건의 CRLH 전송선 특성을 확인하였다.

• 한국정밀공학회지
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• 제28권6호
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• pp.709-715
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• 2011

Chattering in cutting operations are usually a cumbersome part of the manufacturing process in mechanical. Particular, machining performance such as that of the boring process is limited by cutting condition at the movable components. Among various sources of chatter vibration, detrimental point in cutting condition is found a mechanical condition on overhang. It limits cutting speed, depth, surface roughness and tool wear failure as result because the all properties are varying with the metal removal process. In this case, we have to observe the resonance frequencies of a boring bar for continuous cutting. In the established research, boring bar vibration of cutting system has been measured with the aid of accelerometer. However, the inherent parameters of internal turning operations are severely limit for the real time monitoring on accelerometers. At this point, this paper is proposed other method for real time monitoring during continuous cutting with optical fiber at the inside of boring bar. This method has been used a plastic fiber in the special jig on boring bar by based on experimental modal analysis. In this study, improvement of monitoring system on continuous internal cutting was attempted using optical fiber sensor of inside type because usually chattering is investigated experimentally measuring the variation in chip thickness. It is demonstrated that the optical fiber sensor is possibility to measure of chattering with real time in boring process.

• 한국소음진동공학회논문집
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• 제14권6호
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• pp.512-519
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• 2004

This paper described the free vibration characteristics of Optimized H Type (OHT) spacer grids (SG) supporting the PWR fuel rod. The vibration test and the finite element (FE) analysis are performed under the free boundary condition and the clamped at two points (or three points) in the bottom which is the same one as the experimental condition for the dummy rod continuously supported by spacer grids. A modal test is conducted by the impulse excitation method using an impulse hammer and an accelerometer, and the TDAS module of the I-DEAS software is used to acquire and analyze the sensor signals. The softwares related to the FE analysis are the I-DEAS for the geometrical shape modeling and meshing, and the ABAQUS for solving. The fundamental frequency of the OHT SG by experiment under a clamped condition at two points is 175.18 Hz, and shows a bending mode. We think there is no resonance between the fuel rod and the SG because the SG's frequency is higher than that of the fuel rod existing in the range from 30 to 120 Hz. The fundamental frequency of the SG under the free boundary condition is 349.2 Hz showing a bending mode, and the results between the test and the analysis have a good agreement with maximum 7 ％ in error It is also found that the FE analysis model of the OHT SGs to analyze an impact, a buckling and vibration et al. has been generated with reliability.

• 전력전자학회논문지
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• 제18권3호
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• pp.247-255
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• 2013

In this paper, a soft switching DC-DC converter for AC module type photovoltaic (PV) module integrated converter is proposed. A push-pull converter is suitable for a low voltage PV AC module system because the step-up ratio of a high frequency transformer is high and the number of primary side switches is relatively small. However, the conventional push-pull converters do not have high efficiency because of high switching losses by hard switching and transformer losses (copper and iron losses) by high turns-ratio of the transformer. In the proposed converter, primary side switches are turned on at zero voltage switching (ZCS) condition and turned off at zero current switching (ZVS) condition through parallel resonance between secondary leakage inductance of the transformer and a resonant capacitor. Therefore the proposed push-pull converter decreases the switching loss using soft switching of the primary switches. Also, the turns-ratio of the transformer can be reduced by half using a voltage-doubler of secondary side. The theoretical analysis of the proposed converter is verified by simulation and experimental results.

• 한국해양공학회지
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• 제28권5호
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• pp.474-483
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• 2014

The majority of existing WECs (wave energy converters) are designed to achieve maximum power at a resonance condition. In the case of a single WEC, its size must be large enough for tuning, and it has high efficiency only within a limited frequency band. Recently, wave power extraction by deploying many small buoys in a compact array has been studied under the assumption that the buoy's size and separation distance are much smaller than the water depth, wave length, and size of the array. A boundary value problem involving the macro-scale boundary condition on the mean surface covered by an infinite strip of buoys is solved using the eigenfunction expansion method. The energy extraction efficiency (${\varepsilon}=1-R^2_f-T^2_r$), where $R_f$ and $T_r$ are the reflection and transmission coefficients for a strip array of buoys, is assessed for various combinations of packing ratio, strip width, and PTO damping coefficient.

• Advances in aircraft and spacecraft science
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• 제4권6호
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• pp.613-637
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• 2017

The development systems for the Structural Health Monitoring has attracted considerable interest from several engineering fields during the last decades and more specifically in the aerospace one. In fact, the introduction of those systems could allow the transition of the maintenance strategy from a scheduled basis to a condition-based approach providing cost benefits for the companies. The research presented in this paper consists of a definition and next comparison of four methods applied to numerical measurements for the extraction of damage features. The first method is based on the determination of the Structural Intensity field at the on-resonance condition in order to acquire information about the dissipation of vibrational energy throughout the structure. The Damage Quantification Indicator and the Average Integrated Global Amplitude Criterion methods need the evaluation of the Frequency Response Function for a healthy plate and a damaged one. The main difference between these two parameters is their mathematical definition and therefore the accuracy of the scalar values provided as output. The fourth and last method is based on the Mode-shape Curvature, a FRF-based technique which requires the application of particular finite-difference schemes for the derivation of the curvature of the plate. All the methods have been assessed for several damage conditions (the shape, the extension and the intensity of the damage) on two test plates: an isotropic (steel) plate and a 4-plies composite plate.