Faculty Research Profile
Myoungsu Shin
학력
· 2004: Ph.D., Civil & Environmental Engineering, University of Illinois at Urbana-Champaign, USA
· 1998: M.S., Civil Engineering, Seoul National University, Korea
· 1994: B.S., Agricultural Civil Engineering, Seoul National University, Korea
주요 경력
· 2010~현재: Professor, Dept. of Urban & Environmental Eng., UNIST
· 2023~현재: Adjunct Professor, Dept. of Civil & Environmental Eng., Univ. of Illinois
· 2019~현재: Adjunct Professor, College of Civil Eng. & Architecture, Zhejiang Univ.
· 2006~2010: Project Engineer, Rosenwasser Grossman, New York, NY
· 2004~2006: Assistant Professor, Dept. of Industrial & Engineering Tech., Morehead State Univ.
· 2008~현재: Registered Professional Engineer, USA
· 1994~1996: First Lieutenant, ROKA, Korea
수상/학회/외부활동
· 2025~현재: 한국지진공학회 부회장
· 2025~현재: 한국구조물진단유지관리공학회 부회장
· 2015~현재: Associate Editor & Editorial Board, Journal of Building Eng., Elsevier
· 2023~현재: Editor-in-Chief, Journal of Struct. Integ. Maint., Taylor & Francis
· 2015~2020: Editor-in-Chief & Vice EIC, ACF Journal, Asian Concrete Federation
· 2025: 한국구조물진단유지관리공학회 학술상
· 2024: 한국지진공학회 기술상
· 2023: 국토교통부 장관 표창
· 2020: 한국토지주택공사 특별상
· 2016: 한국콘크리트학회 국제활동상
· 2016: UNIST Excellent Achievement Award
구조시스템연구실
Sustainable Structural Systems Lab.
도시건설공학은 인류의 지속가능한 번영과 생존이라는 절실한 사회적 요구에 응답할 중대한 책임을 지닌 분야입니다. UNIST의 Sustainable Structural Systems and Materials Lab은 이러한 사명을 다하기 위해, 도시의 지속가능한 발전과 극한 복합재난에도 복원력을 갖춘 기반시설 기술을 선도적으로 연구·개발하고 있습니다. 신명수 교수 연구실은 다음과 같은 주제를 중심으로 폭넓게 연구를 수행합니다.
(1) 3D 콘크리트 프린팅 기술
(2) 인공지능 기반 도시기반시설의 내진설계, 모델링 및 성능평가
(3) 복합재해 조건에 대한 초고층빌딩 설계 최적화
(4) 콘크리트 구조물의 초음파 비파괴평가 기술
(5) 지속가능한 구조재료 개발
우리 연구실은 학문적 탁월성과 사회적 실용성을 동시에 추구하며, 안전하고 지속가능한 미래 도시를 구현하기 위한 혁신적 해답을 제시하는 것을 목표로 하고 있습니다.
Urban Infrastructure Engineering is entrusted with the critical responsibility of addressing urgent societal needs for sustainable prosperity and human survival. At UNIST, the Sustainable Structural Systems and Materials Lab is devoted to pioneering research and innovation in sustainable urban development and resilient infrastructure capable of withstanding extreme multi-hazard environments.
Under the leadership of Prof. Myoungsu Shin, the lab’s research spans a broad spectrum, including:
(1) 3D concrete printing
(2) AI-based seismic design, modeling, and performance assessment of civil infrastructure
(3) Design optimization of tall building systems under multi-hazard conditions
(4) Ultrasonic non-destructive evaluation technologies for concrete structures
(5) Sustainable structural materials
Our mission is to advance both academic excellence and societal relevance, striving to deliver innovative solutions that safeguard and sustain the future of urban environments.
Urban Infrastructure Engineering is entrusted with the critical responsibility of addressing urgent societal needs for sustainable prosperity and human survival. At UNIST, the Sustainable Structural Systems and Materials Lab is devoted to pioneering research and innovation in sustainable urban development and resilient infrastructure capable of withstanding extreme multi-hazard environments.
Under the leadership of Prof. Myoungsu Shin, the lab’s research spans a broad spectrum, including:
(1) 3D concrete printing
(2) AI-based seismic design, modeling, and performance assessment of civil infrastructure
(3) Design optimization of tall building systems under multi-hazard conditions
(4) Ultrasonic non-destructive evaluation technologies for concrete structures
(5) Sustainable structural materials
Our mission is to advance both academic excellence and societal relevance, striving to deliver innovative solutions that safeguard and sustain the future of urban environments.
연구분야
3D 콘크리트 프린팅, 인공지능 기반 내진설계, 초음파 비파괴 평가, 지속가능한 구조재료, 초고층 빌딩
3D concrete printing, AI-based seismic design, Ultrasonic non-destructive evaluation, Sustainable structural materials, Tall buildings
연구 희망분야
우주 건설, 건설 자동화
Space construction, Automation in construction
연구주제
· 3D 콘크리트 프린팅 기술
· 인공지능 기반 도시기반시설의 내진설계, 모델링 및 성능평가
· 복합재해 조건에 대한 초고층빌딩 설계 최적화
· 콘크리트 구조물의 초음파 비파괴평가 기술
· 지속가능한 구조재료 개발
· 3D concrete printing
· AI-based seismic design, modeling, and performance assessment of civil infrastructure
· Design optimization of tall building systems under multi-hazard conditions
· Ultrasonic non-destructive evaluation technologies for concrete structures
· Sustainable structural materials
· 3D concrete printing
· AI-based seismic design, modeling, and performance assessment of civil infrastructure
· Design optimization of tall building systems under multi-hazard conditions
· Ultrasonic non-destructive evaluation technologies for concrete structures
· Sustainable structural materials
국가연구개발사업 기술 분류체계
국가과학기술표준분류
EI. 건설/교통 > EI11. 시설물안전·유지관리기술 > EI1105. 자연재해 저감기술
논문
· Gwon S., Kim H., Shin M.* (2023) “Self-heating characteristics of electrically conductive cement composites with carbon black and carbon fiber,” Cement and Concrete Composites, V. 137, pp. 104942
· Nguyen H., LaFave J., Lee Y., Shin M.* (2022) “Rapid seismic damage-state assessment of steel moment frames using machine learning,” Engineering Structures, V. 252, pp. 113737
· Ahn E., Shin M.*, Popovics J., Weaver R. (2019) “Effectiveness of diffuse ultrasound for evaluation of micro-cracking damage in concrete,” Cement and Concrete Research, V. 124, pp. 105862
특허
· Gwon S., Shin M. (2020) “A method for internal curing of concrete using plants powder,” KR10-2152589
· Gwon S., Shin M. (2019) “Self-healing sulfur polymer composites using binary cement and superabsorbent polymer,” KR10-2017954
· Gwon S., Shin M. (2017) “Lightweight High-strength Sulfur Concrete with Recycled Rubber Powder,” KR10-1705048