• 한국우주과학회:학술대회논문집(한국우주과학회보)
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• 한국우주과학회 1995년도 한국우주과학회보 제4권2호
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• pp.30-30
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• 1995

We present the results of analysis on the X-ray observations of the binary X-ray pulsar Her X-I. made with ASCA/SIS on August 13-14. 1993. An eclipse transition from ingress to egress was fully covered by the observations. The main findings are as follows; (1) a model of power-law plus black-body is required to interpret the entire eclipse spectrum. and the black-body component appears at < 0.7 keV. (2) the power-law continuum which has photon index ${\alpha}\;=\;{0.84^{\;+0.14}}_{\;-0.19}$ is very similar to that of detected by Ginga/LAC (${\alpha}\;=\;0.80\;{\pm}\;0.04$), (3) the calculated eclipse flux of $2^{-10}\;keV.{\;}~{\;}1.8{\pm}10^{-11}{\;}ergs{\;}cm^{-2}s^{-1}$, is consistent with the Ginga observation carried out in the high intensity state ~2.0{\pm}10^{-11}{\;}ergs{\;}cm^{-2}s^{-1}$, (4) there is no significant absorption feature. and an upper limit of the aborption column $NH{\;}\leq{\;}3{\pm}10^{20}\;cm^{-2}$ is determined at the 90% confidence limit. Based on these results, we suggest that extended matter surrounding the binary system should be existed persistently with stable conditions, and scattering of the source continuum by the matter is responsible for the eclipse emission.ission.

• 천문학회보
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• 제38권1호
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• pp.59.2-59.2
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• 2013

Wilson and Bappu found a tight correlation between the stellar absolute visual magnitude (MV) and the width of the Ca II K emission line for late-type stars in 1957. Here, we revisit the Wilson-Bappu relationship (hereafter, WBR) to claim that WBR can be an excellent indicator of stellar surface gravity of late-type stars as well as a distance indicator. We have measured the width (W) of the Ca II K emission line in high resolution spectra of 125 late-type stars, which were obtained with Bohyunsan Optical Echelle Spectrograph (BOES) and adopted from the UVES archive. Based on our measurement of the emission line width (W), we have obtained a WBR of $M_V=33.76-18.00{\log}W$. In order to extend the WBR to be a surface gravity indicator, the stellar atmospheric parameters such as effective temperature ($T_{eff}$), surface gravity (logg), metallicity ([Fe/H]), and micro-turbulence (${\xi}_{tur}$) have been derived from the self-consistent detailed analysis using the Kurucz stellar atmospheric model and the abundance analysis code, MOOG. Using these stellar parameters and logW, we found that ${\log}g=-5.85\;{\log}W+9.97\;{\log}T_{eff}-23.48$ for late-type stars.

• 천문학논총
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• 제30권2호
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• pp.113-114
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• 2015

Recent high-resolution, high-sensitivity observations of protostellar jets have shown many to possess an underlying 'wiggle' structure. HH 211 is one such example where recent sub-mm observations revealed a clear reflection-symmetric wiggle. An explanation for this is that the HH211 jet source is moving as part of a protobinary system. Here we test this assumption by simulating HH211 through 3D hydrodynamic simulations using the pluto code with a molecular chemistry and cooling module, and initial conditions based on an analytical model derived from SMA observations. Molecular chemistry allows us to accurately plot synthetic molecular emission maps and position-velocity diagrams for direct comparison to observations, enabling us to test the observational assumptions and put constraints on the physical parameters of HH211. Our preliminary results show that the reflection-symmetric wiggle can be recreated through the assumption of a jet source being part of a binary system.

• Nuclear Engineering and Technology
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• 제53권3호
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• pp.752-762
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• 2021

The Smoothed Particle Hydrodynamics is one of the most widely used mesh-free numerical method for thermo-fluid dynamics. Due to its Lagrangian nature and simplicity, it is recently gaining popularity in simulating complex physics with large deformations. In this study, the 3D single/two-phase numerical simulations are performed on the Liquid Metal Reactor (LMR) centralized sloshing benchmark experiment using the SPH parallelized using a GPU. In order to capture multi-phase flows with a large density ratio more effectively, the original SPH density and continuity equations are re-formulated in terms of the normalized-density. Based upon this approach, maximum sloshing height and arrival time in various experimental cases are calculated by using both single-phase and multi-phase SPH framework and the results are compared with the benchmark results. Overall, the results of SPH simulations show excellent agreement with all the benchmark experiments both in qualitative and quantitative manners. According to the sensitivity study of the particle-size, the prediction accuracy is gradually increasing with decreasing the particle-size leading to a higher resolution. In addition, it is found that the multi-phase SPH model considering both liquid and air provides a better prediction on the experimental results and the reality.

• Smart Structures and Systems
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• 제30권2호
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• pp.195-207
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• 2022

Computational drawbacks associated with regular predictive models have motivated engineers to use hybrid techniques in dealing with complex engineering tasks like simulating the compressive strength of concrete (CSC). This study evaluates the efficiency of tree potential metaheuristic schemes, namely shuffled complex evolution (SCE), multi-verse optimizer (MVO), and beetle antennae search (BAS) for optimizing the performance of a multi-layer perceptron (MLP) system. The models are fed by the information of 1030 concrete specimens (where the amount of cement, blast furnace slag (BFS), fly ash (FA1), water, superplasticizer (SP), coarse aggregate (CA), and fine aggregate (FA2) are taken as independent factors). The results of the ensembles are compared to unreinforced MLP to examine improvements resulted from the incorporation of the SCE, MVO, and BAS. It was shown that these algorithms can considerably enhance the training and prediction accuracy of the MLP. Overall, the proposed models are capable of presenting an early, inexpensive, and reliable prediction of the CSC. Due to the higher accuracy of the BAS-based model, a predictive formula is extracted from this algorithm.

• 한국수자원학회:학술대회논문집
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• 한국수자원학회 2023년도 학술발표회
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• pp.231-231
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• 2023

토양침식은 지표의 토양이 바람이나 물에 의해 분리되어 이송되는 자연현상이다. 우리나라에서는 주로 물에 의한 토양침식이 발생하며 특히 단기간 집중적으로 내리는 강우에 의해 토양침식이 일어난다. 토양의 침식현상은 농경지 유실, 하공구조물에서의 퇴적토 발생, 수질 오염등 다양한 문제를 일으키며 기후변화로 인한 집중강우의 빈도 및 강도 증가는 토양침식에 의한 피해를 증가 시키고 있다. 이러한 문제를 파악하기 위해 경험적 방법에 의해 개발된 범용토양유실공식인 USLE 모형이 널리 사용되고 있으나 연간 토양침식량을 산정하기 위해 개발된 USLE모형은 강우기간이 짧고 강우강도가 높은 집중호우와 같은 단기 강우사상을 모의할 수 없고 모든 지역을 표현하는 데 한계가 있다. 이에 따라 단기 강우사상을 고려할 수 있는 물리기반 침식모형인 SSEM모형을 활용하였다. SSEM모형은 운동파 방정식의 수치해석과 물리적 기반 접근방식을 통해 토양침식과정을 계산하여 집중호우로 인해 발생하는 토양침식을 보다 정확하게 추정할 수 있다. 이러한 모형의 적용성을 확인하기 위해 우리나라의 의암댐유역 선정하였으며, 지형 및 강우 그리고 댐자료 등 기초자료 수집과 수집된 데이터는 연구 대상에 대한 토양침식량 산정 및 매개변수 추정과 보정하는 데 사용되었다. 이 결과 다른 토지이용에 비해 농경지와 나지에서 많은 침식이 일어나며 도심지에서의 퇴적이 발생하였다.

• Journal of Information Science Theory and Practice
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• 제12권3호
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• pp.36-48
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• 2024

The information retrieval (IR) process often encounters a challenge known as query-document vocabulary mismatch, where user queries do not align with document content, impacting search effectiveness. Automatic query expansion (AQE) techniques aim to mitigate this issue by augmenting user queries with related terms or synonyms. Word embedding, particularly Word2Vec, has gained prominence for AQE due to its ability to represent words as real-number vectors. However, AQE methods typically expand individual query terms, potentially leading to query drift if not carefully selected. To address this, researchers propose utilizing median vectors derived from deep median networks to capture query similarity comprehensively. Integrating median vectors into candidate term generation and combining them with the BM25 probabilistic model and two IR strategies (EQE1 and V2Q) yields promising results, outperforming baseline methods in experimental settings.

• 한국산학기술학회논문지
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• 제20권2호
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• pp.7-13
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• 2019

본 연구에서는 이종경량재료의 마찰교반용접을 모사할 수 있는 유한요소 해석모델을 개발하고, 이를 통해 기초분석과 실용적 적용 가능성에 대해 고찰하였다. Coupled Eulerian Lagrangian 에 기반한 유한요소모델을 구성하였으며, 해석 모델은 외연적 시간적분을 이용하여 열-온도, 변위-응력 물리계로 이루어진 다중 물리계를 복합적으로 계산하며, 용접툴 표면과 피용접 재료 간 마찰, 극심한 소성변형으로 인한 열에너지 발생, 그리고, 밑면을 통한 열에너지 소산 등 열발생원과 열전달 메카니즘이 모두 고려되었다. Al6061T6와 AZ61 판재의 맞대기용접을 고려하였으며, 주요 용접변수인 용접 속도와 용접툴 회전속도를 변화시킨 세 가지 조건에 대해 해석을 실시하였다. 각 해석은 피용접물의 온도분포, 결함의 분포, 소성변형률 분포가 출력이 가능하였다. 구축한 모델을 이용한 해석 결과 알루미늄보다는 마그네슘부에서 더 높은 온도가 발생하였으며, 회전속도가 커질수록 최대 온도가 증가하기보다는 알루미늄쪽으로 높은 온도가 분산되어 가는 경향을 보였다. 또한, 회전속도가 커질수록 피용접물 재료가 위로 올라오는 플래시 결함의 경향 예측이 가능하였으나, 툴 주변 결함 형성예측은 메시가 세밀하지 못하여 정확한 결과를 산출하기에는 부족하다고 볼 수 있다. 본 모델은 마찰교반용접 중 발생 가능한 여러 물리계의 여러 물리적 현상을 실제에 가깝게 반영하고 있으며, 실험적으로 밝히기 어려운 기초 분석에 응용될 수 있으나, 1달이 넘는 해석소요시간을 감안하면 실용적으로 최적의 용접조건 도출에 응용되기는 어렵다고 판단된다.

• 대한핵의학회지
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• 제32권1호
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• pp.32-49
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• 1998

O-15 표지 물 동적 PET을 이용하여 비균일 심근조직의 혈류를 정확히 추정하기 위하여 일차구획 모델을 변형한 두 개의 혈류 모델을 고안하였다. 첫 모델에서는 혈류, PTI, 조직회수 분획($F_{MM}$)을 추정하였고, 두 번째 모델에서는 혈류, PTI, 그리고 분배계수를 추정하였다. 비균일 심근조직의 비균일성을 나타낼 지표를 도입하여 여러 종류의 비균일 조직을 모사하고 이 지표로 비균일성을 표현하였다. 우리 모델을 적용하여 PTI가 혈류분포의 비균일성과 상관이 적음을 확인하고 분배계수를 변수로 취급한 두 번째 모델에서 추정한 분배계수가 비균일성을 나타냄을 알았다. 분배계수는 비균일성에 따라 굽은 선형(curvilinear)으로 감소하였다. 분배계수와 함께 추정된 혈류도 비균일성이 커지면 참값보다 작게 추정되었다. 추정된 분배계수로 혈류 추정값의 과소평가플 보정하여 추정값의 바이어스를 바로잡을 수 있었다. O-15 표지 물 동적 PET으로 심근혈류를 측정할 때 분배계수를 변수로서 혈류와 함께 추정하여 비균일성을 나타내는 지표로 쓰고 동시에 혈류 추정값을 참값에 가까운 값을 얻는데 쓸 수 있다고 본다. 혈류분포의 비균일성 정도를 수치적으로 표시할 수 있는 지표를 임상에 적용하면 허혈성 심근 질환의 혈류 비균일성을 해석할 수 있을 것으로 생각한다.

• Smart Structures and Systems
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• 제10권3호
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• pp.229-251
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• 2012

Guided waves have shown a great potential for structural health monitoring (SHM) applications. In contrast to traditional non-destructive testing (NDT) methodologies, a key element of SHM approaches is the high process of automation. The monitoring system should decide autonomously whether the host structure is intact or not. A basic requirement for the realization of such a system is that the sensors are permanently installed on the host structure. Thus, baseline measurements become available that can be used for diagnostic purposes, i.e., damage detection, localization, etc. This paper contributes to guided wave-based inspection in anisotropic materials for SHM purposes. Therefore, computational strategies are described for both, the solution of the complex equations for wave propagation analysis in composite materials based on exact elasticity theory and the popular global matrix method, as well as the underlying equations of two active damage localization algorithms for anisotropic structures. The result of the global matrix method is an angular and frequency dependent wave velocity characteristic that is used subsequently in the localization procedures. Numerical simulations and experimental investigations through time-delay measurements are carried out in order to validate the proposed theoretical model. An exemplary case study including the calculation of dispersion curves and damage localization is conducted on an exemplary unidirectional composite structure where the ultrasonic signals processed in the localization step are simulated with the spectral element method. The proposed study demonstrates the capabilities of the proposed algorithms for accurate damage localization in anisotropic structures.