• 한국인공지능학회지
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• 제10권2호
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• pp.13-18
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• 2022

The role of artificial medical intelligence through medical big data has been focused on data-based medical device business and medical service technology development in the field of diagnostic examination of the patient's current condition, clinical decision support, and patient monitoring and management. Recently, with the 4th Industrial Revolution, the medical field changed the medical treatment paradigm from the method of treatment based on the knowledge and experience of doctors in the past to the form of receiving the help of high-precision medical intelligence based on medical data. In addition, due to the spread of non-face-to-face treatment due to the COVID-19 pandemic, it is expected that the era of telemedicine, in which patients will be treated by doctors at home rather than hospitals, will soon come. It can be said that artificial medical intelligence plays a big role at the center of this paradigm shift in prevention-centered treatment rather than treatment. Based on big data, this paper analyzes the current status of artificial intelligence technology for chronic disease patients, market trends, and domestic and foreign company trends to predict the expected effect and future development direction of artificial intelligence technology for chronic disease patients. In addition, it is intended to present the necessity of developing digital therapeutics that can provide various medical services to chronically ill patients and serve as medical support to clinicians.

• 한국콘텐츠학회논문지
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• 제20권10호
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• pp.688-701
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• 2020

본 연구는 시각장애인 대상의 인공지능 관련 연구 동향을 살펴보기 위해 1993년부터 2020년 8월까지 국내·외 논문 총 68편을 선정하여 연도별 논문 게재 수, 연구방법, 연구주제, 키워드 분석 현황, 연구유형, 구현방법별 비교·분석하였다. 연구결과, 연구기간 내 논문 편수는 꾸준히 증가하는 것처럼 보였으나 국내 연구의 경우에는 2016년도 이후에 활발해진 것을 알 수 있었다. 연구방법으로는 국내·외 연구 모두 개발연구가 89.7%를 차지했고, 키워드는 국내 연구에서는 Visually impaired, Deep learning, Assistive device 순이였으며 국외 연구에서는 Visually impaired, Deep learning, Artificial intelligence 순으로 단어 빈도순에서 차이를 보였다. 연구유형은 국내·외 모두 설계, 개발, 구현이 대부분을 차지했으며 구현방법으로는 국내 연구의 구현방법으로는 System 13.2%, Solution 7.4%, App. 4.4% 순이였으며 국외 연구의 구현방법으로는 System 32.4%, App.13.2%, Device 7.4%로 다소 차이를 보였다. 구현방법의 적용 기술로는 국내 연구는 YOLO 2.7%, TTS 2.1%, Tensorflow 2.1% 순이였으며 국외 연구에서는 CNN 8.0%, TTS 5.3%, MS-COCO 4.3% 순으로 사용횟수가 높았다. 본 연구는 시각장애인 대상의 인공지능 관련 연구 동향을 비교·분석하여 국내·외 연구의 현주소를 바로 알고 앞으로 시각장애인을 위한 인공지능 연구의 방향을 제시하고자 하였다.

• 대한의용생체공학회:의공학회지
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• 제44권3호
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• pp.182-189
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• 2023

CT is a medical device that acquires medical images based on Attenuation coefficient of human organs related to X-rays. In addition, using this theory, it can acquire sagittal and coronal planes and 3D images of the human body. Then, CT is essential device for universal diagnostic test. But Exposure of CT scan is so high that it is regulated and managed with special medical equipment. As the special medical equipment, CT must implement quality control. In detail of quality control, Spatial resolution of existing phantom imaging tests, Contrast resolution and clinical image evaluation are qualitative tests. These tests are not objective, so the reliability of the CT undermine trust. Therefore, by applying an artificial intelligence classification model, we wanted to confirm the possibility of quantitative evaluation of the qualitative evaluation part of the phantom test. We used intelligence classification models (VGG19, DenseNet201, EfficientNet B2, inception_resnet_v2, ResNet50V2, and Xception). And the fine-tuning process used for learning was additionally performed. As a result, in all classification models, the accuracy of spatial resolution was 0.9562 or higher, the precision was 0.9535, the recall was 1, the loss value was 0.1774, and the learning time was from a maximum of 14 minutes to a minimum of 8 minutes and 10 seconds. Through the experimental results, it was concluded that the artificial intelligence model can be applied to CT implements quality control in spatial resolution and contrast resolution.

• 사물인터넷융복합논문지
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• 제7권1호
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• pp.79-89
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• 2021

본 연구는 디지털 트랜스포메이션 시대에 사물인터넷(IoT) 기기와 서비스에 대한 정보 격차를 규명하고자 하였다. 이를 위하여 사물인터넷 기기와 서비스에 대한 미래 이슈를 전망하는 인식의 차이를 분석하고, 사물인터넷 기기와 서비스에 대한 인지도와 사용경험에 따른 디지털 기술의 필요성과 삶의 도움에 대한 차이를 분석하였다. 또한 교육수준과 교육수요를 분석하였다. 광주광역시와 전라남도에 거주자를 대상으로 2021년 2월 15일부터 3월 7일까지 설문조사를 실시하였고, 232명이 응답하였다. SPSS 21.0을 활용하여 분석하였고, 모든 통계값은 평균값으로 제시하였다. 연구 결과는 다음과 같다. 첫째, 지능정보사회 인지도에 따른 지능정보사회 미래이슈, 인공지능기기 및 서비스로 제공 받는 삶의 도움, 지능정보기술 필요성 차이를 제시하였다. 둘째, 인공지능기기의 인지도 및 사용 경험에 따른 인공지능으로 부터 제공 받는 삶의 도움 차이를 제시하였다. 셋째, 인공지능서비스의 인지도 및 사용 경험에 따른 인공지능으로 부터 제공 받는 삶의 도움 차이를 제시하였다. 넷째, 인공지능기술 인지도 및 사용 경험에 따른 필요성 차이를 제시하였다. 다섯째, 지능정보사회의 교육수준과 교육수요를 조사하여 제시하였다. 이러한 연구를 결과를 통하여 디지털 트랜스포메이션 시대에 정보 격차 해소를 위한 제언을 제시하였다.

• East Asian mathematical journal
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• 제36권2호
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• pp.273-289
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• 2020

This study introduces the process and results of developing an adaptive math learning program for self-directed learning. It presented the process and results of developing an adaptive math learning program that takes into account the level of learners using artificial intelligence. We wanted to get some suggestions on developing programs for artificial intelligence-based mathematics. The program was developed as Math4U, an application based on smart devices in the "character and expression" area for 7th grade. The Application Math4U may be used differently depending on its purpose. It is also expected to be a useful tool for providing self-directed learning to students as the basis for educational research using smart devices in a changing educational environment.

• 한국인공지능학회지
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• 제10권2호
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• pp.7-11
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• 2022

OLED displays cannot be used permanently due to burn-in or generation of dark spots due to degradation. Therefore, the time when the display can operate normally is very important. It is close to impossible to physically measure the time when the display operates normally. Therefore, the time that works normally should be predicted in a way other than a physical way. Therefore, if you do computer simulations based on artificial intelligence, you can increase the accuracy of prediction by saving time and continuous learning. Therefore, if we do computer simulations based on artificial intelligence, we can increase the accuracy of prediction by saving time and continuous learning. In this paper, a dataset in the form of development from generation to diffusion of dark spots, which is one of the causes related to the life of OLED, was generated by applying the finite element method. The dark spots were generated in nine conditions, such as 0.1 to 2.0 ㎛ with the size of pinholes, the number was 10 to 100, and 50% with water content. The learning data created in this way may be a criterion for generating an artificial intelligence-based dataset.

• 문화기술의 융합
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• 제6권4호
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• pp.803-806
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• 2020

3차원 영상을 활용한 체형 측정 방식은 최근 3차원 측정 카메라와 알고리즘의 발전으로 인하여 보편적으로 활용되고 있다. 기존의 3차원 영상 장비들은 고가의 장비들로 보편화에 한계가 있었다. 최근 저렴한 3D 카메라와의 보급과 다양한 측정 방식의 발달로 인하여 여러 가능성을 보이고 있다. 이는 정확한 데이터 수집을 필요로 하는 의료기기 시장에 많은 영향을 미칠 수 있을 것으로 보인다. 인공지능을 활용한 다양한 의료기기 제품들이 등장하고 있는데 정확한 인공지능 알고리즘을 개발하기 위해서는 정확한 데이터 수집이 가장 중요하다. 3차원 영상을 활용한 인공지능 알고리즘 개발에 3D 카메라를 활용한 수집 장비들은 주요한 요소로 작용할 것으로 보여진다.

• Korean Journal of Radiology
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• 제22권3호
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• pp.442-453
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• 2021

Artificial intelligence (AI) will likely affect various fields of medicine. This article aims to explain the fundamental principles of clinical validation, device approval, and insurance coverage decisions of AI algorithms for medical diagnosis and prediction. Discrimination accuracy of AI algorithms is often evaluated with the Dice similarity coefficient, sensitivity, specificity, and traditional or free-response receiver operating characteristic curves. Calibration accuracy should also be assessed, especially for algorithms that provide probabilities to users. As current AI algorithms have limited generalizability to real-world practice, clinical validation of AI should put it to proper external testing and assisting roles. External testing could adopt diagnostic case-control or diagnostic cohort designs. A diagnostic case-control study evaluates the technical validity/accuracy of AI while the latter tests the clinical validity/accuracy of AI in samples representing target patients in real-world clinical scenarios. Ultimate clinical validation of AI requires evaluations of its impact on patient outcomes, referred to as clinical utility, and for which randomized clinical trials are ideal. Device approval of AI is typically granted with proof of technical validity/accuracy and thus does not intend to directly indicate if AI is beneficial for patient care or if it improves patient outcomes. Neither can it categorically address the issue of limited generalizability of AI. After achieving device approval, it is up to medical professionals to determine if the approved AI algorithms are beneficial for real-world patient care. Insurance coverage decisions generally require a demonstration of clinical utility that the use of AI has improved patient outcomes.

• 월간포장계
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• 통권345호
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• pp.71-78
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• 2022

• 전자통신동향분석
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• 제35권2호
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• pp.1-16
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• 2020

"Artificial Intelligence+" is a key strategic direction that has garnered the attention of several global medical device manufacturers and internet companies. Large hospitals are actively involved in different types of medical AI research and cooperation projects. Medical AI is expected to create numerous opportunities and advancements in areas such as medical imaging, computer aided diagnostics and clinical decision support, new drug development, personal healthcare, pathology analysis, and genetic disease prediction. On the contrary, some studies on the limitations and problems in current conditions such as lack of clinical validation, difficulty in performance comparison, lack of interoperability, adversarial attacks, and computational manipulations are being published. Overall, the medical AI field is in a paradigm shift. Regarding international standardization, the work on the top 10 standardization issues is witnessing rapid progress and the competition for standard development has become fierce.