이해각 연구실
순천향대학교 컴퓨터공학과
이해각 교수
이해각 교수 연구실
홈
이해각 연구실
순천향대학교 컴퓨터공학과 이해각 교수
이해각 연구실은 컴퓨터공학을 기반으로 데이터마이닝, 네트워크 및 정보보호, 실시간 응용 시스템 개발을 수행해 왔으며, 동시에 의료영상과 방사선 계측 분석 등 타 분야와의 융합 연구를 통해 데이터 해석, 영상 분석, 현장 적용형 소프트웨어 구현에 강점을 보이는 실용 중심 연구를 전개하고 있다.
대표 연구 분야
연구 영역 전체보기
컴퓨터 응용 기반 의료·방사선 영상 분석
컴퓨터 응용 기반 의료·방사선 영상 분석
데이터마이닝과 사용자 패턴 분석
네트워크·정보보호·실용 소프트웨어 시스템
주요 논문
3
논문 전체보기
1
article
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인용수 4
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2018Analysis of muscular elasticity according to infrared and ultrasound therapy by sonoelastography
Yeong-Jun Park, Hae-Kag Lee, Jae-Hwan Cho
Journal of Physical Therapy Science
[Purpose] The purpose of this study was to evaluate the effect of physical therapy on elasticity of muscles quantitatively by using sonoelastography equipment in infrared and ultrasound treatment commonly used in hospital physical therapy rooms. [Participants and Methods] We also investigated correlations among various variables such as height, weight, BMI (Body Mass Index), body fat mass, muscle mass, and basal metabolic rate. From July 30th 2017 to August 30th, 2017, muscular elasticity ratio was measured in 10 males in their 20s by comparing muscles of the upper and lower extremities before and after ultrasound and infrared therapy. [Results] Results showed that muscular elasticity was increased 1.55 ± 0.41 folds in forearm muscle region of the upper extremity in ultrasound therapy, which was significantly higher than the increase (1.23 ± 0.10 folds) in infrared therapy. Thus, ultrasound therapy and infrared therapy both would have good result in cardiac treatment for 1-cm away region. In ultrasound therapy and infrared therapy, elasticity increase rates in forearm region of the upper extremity were higher when body fat mass and BMI were increased. [Conclusion] Results of this study could be used as basic data for ultrasound and infrared therapy studies in the future.
https://doi.org/10.1589/jpts.30.1024
Medicine
Ultrasound
Forearm
Elasticity (physics)
Body mass index
Nuclear medicine
Surgery
Internal medicine
Radiology
2
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인용수 0
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2017Analysis of the Brain-activation Areas During the Visual Stimulations of 2D and 3D Imagery using Functional Magnetic Resonance Imaging
Yeong-Cheol Heo, Hae-Kag Lee, Jae-Hwan Cho
IF 0.4
Journal of Magnetics
The aim of this study is an functional magnetic resonance imaging (fMRI) investigation of the activity of the Brodmann brain areas during the viewing of 2D and 3D images. By using the 3.0 Tesla MRI system, an 8-channel SENSE Head Coil, and the ESys fMRI system in 5 adult males, 3D T1-weighted images were obtained from anatomic images. A gradient-EPI sequence was used for the acquisition of the brain functional images. The monitor was installed so that the images could be seen through a mirror located in the coil. The 3D appearance of the triangular, cubic, and hexagonal shapes were visually stimulated by the 2D and 3D images, and a pair of red–blue cardboard glasses was worn during the viewing of the 3D images. The display object is composed of 4 stimulus projections every 60 s and 4 resting periods of 20 s every 20 s. The acquired data were analyzed using the SPM-8 program. For the 2D imagery, the activation area of the brain is larger than that of the 3D imagery (p < .05). In the visual-cortex activation area, the number of clusters is larger for the 3D imagery (p < .05). It is expected that the basic data of this study will be used to analyze the effects of 3D-image contents on the areas of the human brain.
https://doi.org/10.4283/jmag.2017.22.4.654
Functional magnetic resonance imaging
Magnetic resonance imaging
Occipital lobe
Brain activity and meditation
Human brain
Stimulus (psychology)
Visual cortex
Computer science
Artificial intelligence
Computer vision
3
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bronze
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인용수 0·
2017Evaluation of the Lens-absorbed Dose of the Scattered Radiation Generated During Tomotherapy IMRT to the H&N Cancer Patient
Jaewon Choi, Hae-Kag Lee, Jae-Hwan Cho, Cheon Woong Choi, Myung Sik Ju, Bok Soon Chang, Cheol-Soo Park
IF 0.4
Journal of Magnetics
This paper uses a glass dosimeter to evaluate the lens-absorbed dose of scattered radiation generated in tomotherapy intensity modulated radiation therapy (IMRT). The head and neck portion of the rando phantom was subjected to a CT scan. The tomotherapy plan was designed to ensure delivery of the prescribed total 70 Gy day 2.2 Gy. With the lens portion of the glass dosimeter, a 5mm bolus was subjected to the scattered radiation treatment, and the dose was measured in each of the three megavoltage CT (MVCT) modes. The result is multiplied by 30 times and was determined once as the mean value. The measurement at the MVCT Coarse mode is RT mode 10.797 mGy, that for the Normal mode is 13.360 mGy, for the Fine mode is a maximum of 22.872 mGy, and for the treatment mode is 895.830 mGy. A small amount of scattered radiation in the MVCT is measured in the lens scattered radiation, but scattered radiation during treatment was measured to be near 1 Gy on the lens. Compared to a one-time radiation treatment of 2.2 Gy, the survey showed something unexpected in that it was half the value of that research to the patient. Therefore, will be aware of how much of an influence there will be on sensitive organs, such as the lens by scattered radiation generated during intensity modulated radiation therapy.
https://doi.org/10.4283/jmag.2017.22.1.141
Tomotherapy
Dosimeter
Nuclear medicine
Radiation
Imaging phantom
Radiation therapy
Optics
Medicine
Lens (geology)
Medical physics