• 한국압력기기공학회 논문집
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• 제19권2호
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• pp.93-101
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• 2023

In this study, a deep learning algorithm was used to diagnose electric potential signals obtained through CIPS and DCVG, used indirect inspection methods to confirm the soundness of buried pipes. The deep learning algorithm consisted of CNN(Convolutional Neural Network) model for diagnosing the electric potential signal and Grad CAM(Gradient-weighted Class Activation Mapping) for showing the flaw prediction point. The CNN model for diagnosing electric potential signals classifies input data as normal/abnormal according to the presence or absence of flaw in the buried pipe, and for abnormal data, Grad CAM generates a heat map that visualizes the flaw prediction part of the buried pipe. The CIPS/DCVG signal and piping layout obtained from the 3D finite element model were used as input data for learning the CNN. The trained CNN classified the normal/abnormal data with 93% accuracy, and the Grad-CAM predicted flaws point with an average error of 2m. As a result, it confirmed that the electric potential signal of buried pipe can be diagnosed using a CNN-based deep learning algorithm.

• 천문학회보
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• 제46권1호
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• pp.42.1-42.1
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• 2021

In this study, we present a visual explanation of a deep learning solar flare forecast model and its relationship to physical parameters of solar active regions (ARs). For this, we use full-disk magnetograms at 00:00 UT from the Solar and Heliospheric Observatory/Michelson Doppler Imager and the Solar Dynamics Observatory/Helioseismic and Magnetic Imager, physical parameters from the Space-weather HMI Active Region Patch (SHARP), and Geostationary Operational Environmental Satellite X-ray flare data. Our deep learning flare forecast model based on the Convolutional Neural Network (CNN) predicts "Yes" or "No" for the daily occurrence of C-, M-, and X-class flares. We interpret the model using two CNN attribution methods (guided backpropagation and Gradient-weighted Class Activation Mapping [Grad-CAM]) that provide quantitative information on explaining the model. We find that our deep learning flare forecasting model is intimately related to AR physical properties that have also been distinguished in previous studies as holding significant predictive ability. Major results of this study are as follows. First, we successfully apply our deep learning models to the forecast of daily solar flare occurrence with TSS = 0.65, without any preprocessing to extract features from data. Second, using the attribution methods, we find that the polarity inversion line is an important feature for the deep learning flare forecasting model. Third, the ARs with high Grad-CAM values produce more flares than those with low Grad-CAM values. Fourth, nine SHARP parameters such as total unsigned vertical current, total unsigned current helicity, total unsigned flux, and total photospheric magnetic free energy density are well correlated with Grad-CAM values.

• 한국방사선학회논문지
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• 제18권3호
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• pp.187-201
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• 2024

골다공증은 전 세계적으로 주요한 건강 문제임에도 불구하고, 골절 발생 전까지 쉽게 발견되지 않는 단점을 가지고 있습니다. 본 연구에서는 골다공증 조기 발견 능력 향상을 위해, 복부 컴퓨터 단층 촬영(Computed Tomography, CT) 영상을 활용하여 정상-골감소증-골다공증으로 구분되는 골다공증 단계를 체계적으로 분류할 수 있는 딥러닝(Deep learning, DL) 시스템을 개발하였습니다. 총 3,012개의 조영제 향상 복부 CT 영상과 개별 환자의 이중 에너지 X선 흡수 계측법(Dual-Energy X-ray Absorptiometry, DXA)으로 얻은 T-점수를 활용하여 딥러닝 모델 개발을 수행하였습니다. 모든 딥러닝 모델은 비정형 이미지 데이터, 정형 인구 통계 정보 및 비정형 영상 데이터와 정형 데이터를 동시에 활용하는 다중 모달 방법에 각각 모델 구현을 실현하였으며, 모든 환자들은 T-점수를 통해 정상, 골감소증 및 골다공증 그룹으로 분류되었습니다. 가장 높은 정확도를 갖는 모델 우수성은 비정형-정형 결합 데이터 모델이 가장 우수하였으며, 수신자 조작 특성 곡선 아래 면적이 0.94와 정확도가 0.80를 제시하였습니다. 구현된 딥러닝 모델은 그라디언트 가중치 클래스 활성화 매핑(Gradient-weighted Class Activation Mapping, Grad-CAM)을 통해 해석되어 이미지 내에서 임상적으로 관련된 특징을 강조했고, 대퇴 경부가 골다공증을 통해 골절 발생이 높은 위험 부위임을 밝혔습니다. 이 연구는 DL이 임상 데이터에서 골다공증 단계를 정확하게 식별할 수 있음을 보여주며, 조기에 골다공증을 탐지하고 적절한 치료로 골절 위험을 줄일 수 있는 복부 컴퓨터 단층 촬영 영상의 잠재력을 제시할 수 있습니다.

• 대한화학회지
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• 제31권6호
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• pp.555-566
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• 1987

조선조에 주조된 古錢 시료 50개를 입수하여 그 속에 함유된 9종의 원소(Sn, Fe, As, Ag, Co, Sb, Ir, Ru, Ni)는 중성자방사화분석에 의하고 3종 원소(Cu, Pb,Zn)는 원자흡수분광분석법에 의해 각각 정량하였다. 초기 청동화는 주성분인 Cu, Pb,Zn의 비가 90:4:3였고 말기 청동화는 7:2:0이었다. 황동화는 17세기에 비롯되었으며 그 주성분인 Cu, Pb,Zn의 조성은 7:1:1이었다. 이들 12종 원소의 분석데이타를 사용하여 원소 상호간의 상관관계를 상관메트릭스법으로 검토하였다. 그리고 주성분 분석법으로 각 시료의 농도 분포를 평면에 나타내었으며, 제조연대 및 제조관청이 같은 시료가 모이면 이들 시료를 SIMCA를 위한 참조 시료로 삼았다. SIMCA에 의해 8개군으로 분류되었으며 참조시료 및 시험시료가 어떤 군에 속하는지 또는 열외인지 연구 검토하였다.

• 대한치과교정학회지
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• 제52권1호
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• pp.3-19
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• 2022

Objective: The purpose of this study was to investigate the accuracy of one-step automated orthodontic diagnosis of skeletodental discrepancies using a convolutional neural network (CNN) and lateral cephalogram images with different qualities from nationwide multi-hospitals. Methods: Among 2,174 lateral cephalograms, 1,993 cephalograms from two hospitals were used for training and internal test sets and 181 cephalograms from eight other hospitals were used for an external test set. They were divided into three classification groups according to anteroposterior skeletal discrepancies (Class I, II, and III), vertical skeletal discrepancies (normodivergent, hypodivergent, and hyperdivergent patterns), and vertical dental discrepancies (normal overbite, deep bite, and open bite) as a gold standard. Pre-trained DenseNet-169 was used as a CNN classifier model. Diagnostic performance was evaluated by receiver operating characteristic (ROC) analysis, t-stochastic neighbor embedding (t-SNE), and gradient-weighted class activation mapping (Grad-CAM). Results: In the ROC analysis, the mean area under the curve and the mean accuracy of all classifications were high with both internal and external test sets (all, > 0.89 and > 0.80). In the t-SNE analysis, our model succeeded in creating good separation between three classification groups. Grad-CAM figures showed differences in the location and size of the focus areas between three classification groups in each diagnosis. Conclusions: Since the accuracy of our model was validated with both internal and external test sets, it shows the possible usefulness of a one-step automated orthodontic diagnosis tool using a CNN model. However, it still needs technical improvement in terms of classifying vertical dental discrepancies.

• Korean Journal of Radiology
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• 제23권10호
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• pp.949-958
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• 2022

Objective: To investigate the feasibility of using a deep learning-based analysis of auscultation data to predict significant stenosis of arteriovenous fistulas (AVF) in patients undergoing hemodialysis requiring percutaneous transluminal angioplasty (PTA). Materials and Methods: Forty patients (24 male and 16 female; median age, 62.5 years) with dysfunctional native AVF were prospectively recruited. Digital sounds from the AVF shunt were recorded using a wireless electronic stethoscope before (pre-PTA) and after PTA (post-PTA), and the audio files were subsequently converted to mel spectrograms, which were used to construct various deep convolutional neural network (DCNN) models (DenseNet201, EfficientNetB5, and ResNet50). The performance of these models for diagnosing ≥ 50% AVF stenosis was assessed and compared. The ground truth for the presence of ≥ 50% AVF stenosis was obtained using digital subtraction angiography. Gradient-weighted class activation mapping (Grad-CAM) was used to produce visual explanations for DCNN model decisions. Results: Eighty audio files were obtained from the 40 recruited patients and pooled for the study. Mel spectrograms of "pre-PTA" shunt sounds showed patterns corresponding to abnormal high-pitched bruits with systolic accentuation observed in patients with stenotic AVF. The ResNet50 and EfficientNetB5 models yielded an area under the receiver operating characteristic curve of 0.99 and 0.98, respectively, at optimized epochs for predicting ≥ 50% AVF stenosis. However, Grad-CAM heatmaps revealed that only ResNet50 highlighted areas relevant to AVF stenosis in the mel spectrogram. Conclusion: Mel spectrogram-based DCNN models, particularly ResNet50, successfully predicted the presence of significant AVF stenosis requiring PTA in this feasibility study and may potentially be used in AVF surveillance.