• Journal of Gastric Cancer
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• 제23권3호
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• pp.375-387
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• 2023

Stomach cancer has a high annual mortality rate worldwide necessitating early detection and accurate treatment. Even experienced specialists can make erroneous judgments based on several factors. Artificial intelligence (AI) technologies are being developed rapidly to assist in this field. Here, we aimed to determine how AI technology is used in gastric cancer diagnosis and analyze how it helps patients and surgeons. Early detection and correct treatment of early gastric cancer (EGC) can greatly increase survival rates. To determine this, it is important to accurately determine the diagnosis and depth of the lesion and the presence or absence of metastasis to the lymph nodes, and suggest an appropriate treatment method. The deep learning algorithm, which has learned gastric lesion endoscopyimages, morphological characteristics, and patient clinical information, detects gastric lesions with high accuracy, sensitivity, and specificity, and predicts morphological characteristics. Through this, AI assists the judgment of specialists to help select the correct treatment method among endoscopic procedures and radical resections and helps to predict the resection margins of lesions. Additionally, AI technology has increased the diagnostic rate of both relatively inexperienced and skilled endoscopic diagnosticians. However, there were limitations in the data used for learning, such as the amount of quantitatively insufficient data, retrospective study design, single-center design, and cases of non-various lesions. Nevertheless, this assisted endoscopic diagnosis technology that incorporates deep learning technology is sufficiently practical and future-oriented and can play an important role in suggesting accurate treatment plans to surgeons for resection of lesions in the treatment of EGC.

• 한국콘텐츠학회논문지
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• 제21권12호
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• pp.13-22
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• 2021

임상의사결정시스템은 누적된 의료 데이터를 활용하여 머신러닝으로 학습된 AI 모델을 환자의 진단 및 진료 예측에 적용한다. 그러나 기존의 블랙박스 기반의 AI 응용은 시스템이 예측한 결과에 대해 타당한 이유를 제시하지 못하여 설명성이 부족한 한계점이 존재한다. 이와 같은 문제점을 보완하기 위해 이 논문에서는 임상의사결정시스템의 개발 단계에서 설명이 가능한 XAI를 적용하는 시스템 모델을 제안한다. 제안 모델은 기존의 AI모델에 설명성이 가능한 특정 XAI 기술을 추가로 적용시켜 블랙박스의 한계점을 보완할 수 있다. 제안 모델의 적용을 보이기 위해 LIME과 SHAP을 활용한 XAI 적용 사례를 제시한다. 테스트를 통해 데이터들이 모델의 예측 결과에 어떤 영향을 미치는지 다양한 관점에서 설명할 수 있다. 제안된 모델은 사용자에게 구체적인 이유를 제시함으로써 사용자의 신뢰를 높일 수 있는 장점을 가진다. 아울러 XAI의 적극적인 활용을 통해 기존 임상의사결정시스템의 한계를 극복하고 더 나은 진단 및 의사결정 지원을 가능하게 할 것으로 기대한다.

• 한국수정란이식학회지
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• 제32권3호
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• pp.153-157
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• 2017

This study was conducted to investigate the optimal artificial insemination (AI) time with diagnostic kit at ovulation time. We already applied the patent about the protein in the cow heat mucose in external reproductive tract. And we would examine the accuracy for detection of cow heat by the kit produced with the protein. Evaluation of optimal heat detection was tried two time at 12 hrs and 24 hrs after the heat. And then, AI service also performed two times with no relation to the results of heat diagnosis by heat detection kit and pregnancy rates were checked with rectal palpation on $60^{th}$ day after AI. Heat diagnostic results by kit in natural heat after 12 hrs in Hanwoo cows were showed 31.3~75.0% on positive in first heat detection and 33.3~100.0% on positve in second heat detection. In the $1^{st}$ positive results were significant different (p<0.05), but $2^{nd}$ positive were not. The results of heat detection showed different result on regional influence and individual cow effects. The pregnancy rates of first trial of heat detection were showed 34.4~78.7% on positive and 21.3~68.8% on negative after the diagnosis by heat detection kit. And the pregnancy rates of next trial of heat detection were showed 33.3~85.7% on positive and 14.3~66.6% on negative after the heat diagnosis. Both positive results of first trial and next trial also were showed significant different (p<0.05), but negative results were not. In positive result, first trial of total pregnancy rates was higher than the next trial of pregnancy, but there showed opposite results on negative results. In conclusion, the optimal heat detection kit is suitable to ordinary Hanwoo cows and it suggested that we have to improve the kit's accuracy by detecting the materials like proteins related optimal AI time.

• 대한임베디드공학회논문지
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• 제19권3호
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• pp.151-158
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• 2024

Although on-device artificial intelligence (AI) has gained attention to diagnosing machine faults in real time, most previous studies did not consider the model retraining and redeployment processes that must be performed in real-world industrial environments. Our study addresses this challenge by proposing an on-device AI-based real-time machine fault diagnosis system that utilizes continual learning. Our proposed system includes a lightweight convolutional neural network (CNN) model, a continual learning algorithm, and a real-time monitoring service. First, we developed a lightweight 1D CNN model to reduce the cost of model deployment and enable real-time inference on the target edge device with limited computing resources. We then compared the performance of five continual learning algorithms with three public bearing fault datasets and selected the most effective algorithm for our system. Finally, we implemented a real-time monitoring service using an open-source data visualization framework. In the performance comparison results between continual learning algorithms, we found that the replay-based algorithms outperformed the regularization-based algorithms, and the experience replay (ER) algorithm had the best diagnostic accuracy. We further tuned the number and length of data samples used for a memory buffer of the ER algorithm to maximize its performance. We confirmed that the performance of the ER algorithm becomes higher when a longer data length is used. Consequently, the proposed system showed an accuracy of 98.7%, while only 16.5% of the previous data was stored in memory buffer. Our lightweight CNN model was also able to diagnose a fault type of one data sample within 3.76 ms on the Raspberry Pi 4B device.

• Journal of Oral Medicine and Pain
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• 제17권1호
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• pp.89-94
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• 1992

To evaluate Helhimo's Anamnestic Dysfunction Index(AI), Helkimo's Clinical Dysfunction Index(HDI), and Friction's Craniomandibular Index(CMI) in Korean Young population, clinical examinations were performed in 207 dental college students who were healthy and had no evidence of the craniomandibular disorders. The obtained results were as follows; 1. The mean values of the Helkimo's Anamnestic Index(AI), Clinical Dysfunction Index(HDI), Fricton's Palpation Index(PI), Dysfunction Index(DI), and Craniomandibular Index(CMI) were 0.35, 0.71, 0.03, 0.05, and 0.04 in male subjects. 2. The mean values of the Helkimo's Anamnestic Index(AI), Clinical Dysfunction Index(HDI), Fricton's Palpation Index(PT), Dysfunction Index(DI), and Fricton's Craniomandibular Index(CMI) were 0.42, 0.72, 0.02, 0.04, and 0.03 in female subjects. 3. There was no statistically significant difference between male and female subjects in each parameter. 4. The palpation index(PI) observed in Korean Young Population was lower than that in American population.

• Radiation Oncology Journal
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• 제17권3호
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• pp.203-208
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• 1999

목적 : 폐암 환자의 대부분은 진단 당시 수술을 받을 수 없는 병기로 발견되기 때문에 수술 조직이 아닌 기관지내시경 조직에서 자발성 아포토시스 정도를 평가하여 이의 임상적 의의에 대한 기초 자료로 삼고자 본 연구를 시행하였다. 대상 및 방법 : 1990년 9월부터 1994년 9월까지의 4년동안 흉부에 방사선치료를 받은 폐 편평세포암 환자 중 조직표본이 충분히 보관되어 있으며 추적이 가능하였던 19명을 대상으로 하였다. 병기는 II기가 1명, IIIa기 8명, IIIb기 5명, IV기 5명이었다. 면역조직화학적 염색법으로 자발성 아포토시스율(Al)과 p53 단백질 양성률을 관찰하였다. 결과 : 19명 중 16명은 $5\~15$ 개월 후에 사망하였으며 3명은 55, 67, 67 개월간 생존하고 있다. 중앙생존기간은 17개월, 평균 생존기간은 24 개월이었다. AI는 $0\~1\%$의 범위로 중앙값이 $0.4\%$였다. AI가 낮은 군에서 진단 당시 원격전이가 있었던 경우가 $50\%$ (5/10) 였고, 높은 근에서는 원격전이가 전혀 없었다(0/9). 생존기간에 영향을 줄 수 있는 예후인자들의 분석 결과 단변량 분석에서는 M병기가 통계학적으로 유의한 차이를 보였고, 다변량 분석에서는 AI, 화학요법, M병기, T병기, 병기가 의의가 있었다. 자발성 아포토시스와 p53 변이 사이의 관련은 관찰되지 않았다. 결론 : AI는 진단 당시 원격전이와 관련이 있으며, p53 변이와는 관련이 없었다. AI가 낮은 군에서 높은 군보다 생존기간이 짧은 경향을 보였다.

• 한국방사선학회논문지
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• 제18권3호
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• pp.267-273
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• 2024

본 연구에서는 코딩없이 인공지능 학습 모델을 개발할 수 있는 클라우드 기반의 버텍스 AI 플렛폼을 이용하여 비전문가인 일반인들이 손쉽게 인공지능 학습 모델을 개발하였고 임상적 적용가능성을 확인하였다. 학습용 데이터는 캐글 사이트에 공개된 총9개 치과 질환, 2,999장 치근병 X선 영상을 사용하였고, 무작위로 학습, 검증 및 테스트 데이터 이미지를 분류하였다. 버텍스 AI의 기본 학습모델 워크플로우에서 학습 파이프라인을 사용하여 하이퍼 파라미터 조정작업을 통해 영상분류, 멀티레이블 학습을 수행하였다. Auto ML을 수행한 결과 AUC가 0.967, 정밀도는 95.6%, 재현율은 95.2%로 나타났으며, 학습된 인공지능 모델이 임상적 진단에 충분한 의미가 있음을 확인하였다.

• 시스템엔지니어링학술지
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• 제17권2호
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• pp.91-97
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• 2021

User interface for cancer classification system is a software application with clinician's friendly tools and functions to diagnose cancer from pathology images. Pathology evolved from manual diagnosis to computer-aided diagnosis with the help of Artificial Intelligence tools and algorithms. In this paper, we explained each block of the project life cycle for the implementation of automated breast cancer classification software using AI and machine learning algorithms to classify normal and invasive breast histology images. The system was designed to help the pathologists in an automatic and efficient diagnosis of breast cancer. To design the classification model, Hematoxylin and Eosin (H&E) stained breast histology images were obtained from the ICIAR Breast Cancer challenge. These images are stain normalized to minimize the error that can occur during model training due to pathological stains. The normalized dataset was fed into the ResNet-34 for the classification of normal and invasive breast cancer images. ResNet-34 gave 94% accuracy, 93% F Score, 95% of model Recall, and 91% precision.

• Journal of the Korean Academy of Child and Adolescent Psychiatry
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• 제30권4호
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• pp.145-152
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• 2019

Objectives: The detection of autism spectrum disorder (ASD) is based on behavioral observations. To build a more objective datadriven method for screening and diagnosing ASD, many studies have attempted to incorporate artificial intelligence (AI) technologies. Therefore, the purpose of this literature review is to summarize the studies that used AI in the assessment process and examine whether other behavioral data could potentially be used to distinguish ASD characteristics. Methods: Based on our search and exclusion criteria, we reviewed 13 studies. Results: To improve the accuracy of outcomes, AI algorithms have been used to identify items in assessment instruments that are most predictive of ASD. Creating a smaller subset and therefore reducing the lengthy evaluation process, studies have tested the efficiency of identifying individuals with ASD from those without. Other studies have examined the feasibility of using other behavioral observational features as potential supportive data. Conclusion: While previous studies have shown high accuracy, sensitivity, and specificity in classifying ASD and non-ASD individuals, there remain many challenges regarding feasibility in the real-world that need to be resolved before AI methods can be fully integrated into the healthcare system as clinical decision support systems.

• 한국정보처리학회:학술대회논문집
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• 한국정보처리학회 2023년도 춘계학술발표대회
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• pp.681-683
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• 2023

폐암은 전 세계적으로 사망률이 가장 높은 암 질환으로, 조기 발견 및 신속한 치료를 위해서는 흉부 X-ray 영상 내 악성 결절을 놓치지 않는 것이 중요하다. 그러나 흉부 X-ray 영상은 정밀도의 한계로 진단 결과에 대한 신뢰도가 낮아, 이를 보조하는 도구의 개발이 요구된다. 기존의 폐암 진단 보조 도구는 학습 기반의 기법으로, 진단 결과에 대한 설명성(explainability)이 없다는 위험성을 갖는다. 이에 본 논문에서는 통계 분석에 기반한 결절의 석회화 여부 진단 기법을 제안한다. 제안하는 기법은 결절과 해부학적 구조물의 밝기 차 분포로부터 석회화 여부를 판단하며, 그 결과 민감도 65.22%, 특이도 88.48%, 정확도 83.41%의 성능을 보였다.