장진호
Chang, Jin HoDepartment of Electrical Engineering and Computer Science
학력
- 2004 ~ 2007Univ of Southern California 박사
- 2000 ~ 2002서강대학교 석사
- 1994 ~ 2000서강대학교 학사
경력
- 2019 ~ 2020서강대 / 교수
- 2014 ~ 2019서강대 / 부교수
- 2010 ~ 2014서강대 / 조교수
- 2008 ~ 2010University of Southern California / Postdoctoral Research Associat
- 2002 ~ 2003LG전자 DM연구소 / 주임
수상실적
- 2024장관표창
- 2023기타표창
연구실 소개
- Medical Acoustic Fusion Innovation Lab.
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Medical ultrasound imaging has firmly established its own territory as a diagnostic tool due to its real-time capability, portability, safety, and functional imaging capability. These features are prominent advantages over other imaging modalities such as magnetic resonance imaging (MRI) and computer tomography (CT), thus making it possible for ultrasound imaging to occupy the position of the second most popular modality in the medical imaging market. Here, our research goal is to push the envelope of medical ultrasound modality by seeking new and hybrid techniques. This will extend preclinical and clinical applications of ultrasound and make ultrasound become a pivotal driving factor in future biomedical engineering. Our primary research goals are to develop the solutions for: - Medical Ultrasound Imaging and Therapy - Photoacoustic Imaging - Signal & Image Processing and Systems - Combined Ultrasound and Light for Imaging and Therapy - Ultrasound Sensors
Related Keyword
- "High-Intensity focused ultrasound linear array and system for dermatology treatment", Kim, Juhwan. (2025-01). High-Intensity focused ultrasound linear array and system for dermatology treatment. Ultrasonics, 145. doi: 10.1016/j.ultras.2024.107477
- "Ultrasound-Assisted Photothermal Therapy (ULTRA-PTT) for the Treatment of Deep-Seated Tumors", Kim, Haemin. (2024-07). Ultrasound-Assisted Photothermal Therapy (ULTRA-PTT) for the Treatment of Deep-Seated Tumors. Advanced Optical Materials, 12(20). doi: 10.1002/adom.202400332
- "Intelligent Bladder Volume Monitoring for Wearable Ultrasound Devices: Enhancing Accuracy through Deep Learning-based Coarse-to-Fine Shape Estimation", Lee, Kyungsu. (2024-07). Intelligent Bladder Volume Monitoring for Wearable Ultrasound Devices: Enhancing Accuracy through Deep Learning-based Coarse-to-Fine Shape Estimation. IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, 71(7), 775–785. doi: 10.1109/TUFFC.2024.3350033
- "Gas bubbles induced by combined optical and ultrasound energies for high-resolution deep optical microscopy", Kim, Jinwoo. (2024-07). Gas bubbles induced by combined optical and ultrasound energies for high-resolution deep optical microscopy. APL Photonics, 9(7). doi: 10.1063/5.0203205
- "Oblong-shaped piezoelectric ultrasound energy harvester for high-performance wireless power charging", Kang, Sungwoo. (2024-07). Oblong-shaped piezoelectric ultrasound energy harvester for high-performance wireless power charging. Nano Energy, 126. doi: 10.1016/j.nanoen.2024.109618
- "Control of optical imaging depth using ultrasound-induced microbubbles for deep optical microscopy", Kim, Jinwoo. (2024-04-07). Control of optical imaging depth using ultrasound-induced microbubbles for deep optical microscopy. Microscopy Histopathology and Analytics, Microscopy 2024 - Part of Optica Biophotonics Congress: Biomedical Optics, 1–2. doi: 10.1364/MICROSCOPY.2024.MS1A.7
- "Design of ultrasound transducers for localized neuromodulation", Park, Hyeongyu. (2024-04-07). Design of ultrasound transducers for localized neuromodulation. Microscopy Histopathology and Analytics, Microscopy 2024 - Part of Optica Biophotonics Congress: Biomedical Optics, 1–2. doi: 10.1364/TRANSLATIONAL.2024.JS4A.46
- "USG-Net: Deep Learning-based Ultrasound Scanning-Guide for an Orthopedic Sonographer", Lee, Kyungsu. (2022-09-19). USG-Net: Deep Learning-based Ultrasound Scanning-Guide for an Orthopedic Sonographer. International Conference on Medical Image Computing and Computer Assisted Interventions, 23–32. doi: 10.1007/978-3-031-16449-1_3
연구 뉴스
- A New Paradigm in Photothermal Therapy! DGIST Developed “Ultrasound-Assisted Photothermal Therapy (ULTRA-PTT)” Technology! 2024-06-25
- 광열 치료의 새로운 패러다임! DGIST, ‘울트라 광열 치료(ULTRA- PTT)’ 기술 개발! 2024-06-18
- Improved ultrasound wireless charging for implantable biomedical devices 2024-05-18
- 세계 최초 초음파 기반 고성능 무선 충전 기술 개발! 아이언맨 슈트의 무선 충전 기술 현실화 기대 2024-04-25
- 기존 의료 광학 영상의 한계, 세계 최초‘초음파 조직 투명화’기술로 극복! 2022-09-19
연구분야
미래유망 신기술(6T)
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20000. BT(생명공학기술)
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20200. 보건의료 관련응용
20217. 의과학․의공학 기술
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국가과학기술표준분류
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LC. 보건의료
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LC04. 의료기기
LC0409. 초음파 진단기기
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ED. 전기/전자
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ED04. 반도체 소자·회로
ED0404. Sensor용 소자
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ED. 전기/전자
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ED05. 전기전자부품
ED0599. 달리 분류되지 않는 전기전자부품
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EE. 정보/통신
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EE01. 정보이론
EE0108. 인공지능
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LA. 생명과학
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LA07. 융합바이오
LA0704. 바이오이미징
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LC. 보건의료
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LC04. 의료기기
LC0499. 달리 분류되지 않는 의료기기
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LC. 보건의료
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LC06. 의료정보/ 시스템
LC0603. 병원의료정보시스템/설비
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NB. 물리학
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NB05. 광학·양자전자학
NB0506. 의광학
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12대 국가전략기술 분야
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첨단바이오
디지털헬스 데이터 분석·활용