구조 시스템 및 어스쿼크 e 엔지니어링 연구소 (SSEEL)
구조 시스템 및 지진 공학 연구소(SSEEL)는 구조 엔지니어링의 전체 스펙트럼을 다룹니다. 우리는 재료, 멤버, 시스템 및 다중 규모의 수준에서 구조적 동작을 조사하고, 강력한 이론적 배경을 통합하는 계산 및 실험 방법을 사용하고, 지진 공학, 지속 가능한 구조 시스템 및 고급 사실적 시뮬레이션과 같은 전통적이고 새로운 연구 주제에 중점을 둡니다. 궁극적인 목표는 구축된 환경의 안전과 지속 가능성을 개선하고, 근본적인 과학 과 엔지니어링을 발전시키고, 지역 사회를 위한 더 나은 삶에 기여하는 것입니다. (지도교수: 김준희 junhkim@yonsei.ac.kr | http://sseel.yonsei.ac.kr/)
고성능 건설재료 연구실 (ACML)
ACML 연구실은 건축물에 가장 보편적으로 사용되고 있는 구조재료(Structural Materials)인 시멘트기반 복합체의 개발 및 적용 연구를 수행하고 있습니다. 특히 최근 비정형 건축물 및 초장대 교량 등 특수 구조물에 활발하게 적용되고 있는 초고성능 콘크리트(Ultra-High-Performance Concrete, UHPC)와 CO2를 흡수하는 Carbon Eating Concrete에 대한 연구를 수행하고 있습니다. 뿐만 아니라 충격 및 폭발 등 극한하중(Extreme Loading)에서의 저항성 극대화, 나노물질을 활용한 자기감지(Self-Sensing) 및 자기치유(Self-Healing) 성능 확보 등 기능성 시멘트기반 복합체 개발도 진행하고 있습니다. (캐) UBC SIERA Group과 변형성능 10% 이상의 세계 최고성능 수준의 변형경화형 시멘트 복합체(Strain-Hardening Cementitious Composites, SHCC)를 개발하였으며, 전 세계적으로 UHPC / SHCC 분야를 선도하는 연구실입니다. (지도교수: 류두열 dyyoo@yonsei.ac.kr | https://sites.google.com/view/acml/home)
인공지능 건축구조 연구소 (AIS)
인공지능 건축구조 연구실은 건축구조물의 안전성을 보증하기 위한 첨단 기술 개발을 목표로 하고 있습니다. 건축 구조 공학 이론에 근거하여 건축 구조물의 안전과 관련된 현 이슈들을 해결해나가고 있습니다. 문제 해결을 위해, 인공지능은 핵심 전략이 될 것입니다. 건축 구조물로부터 생산되는 다양한 구조 반응을 보다 효율적으로 다루고 분석하기 위해 인공지능이 도입되고 문제 해결을 위해 설계될 것입니다. (지도교수: 오병관 aeioobk@yonsei.ac.kr | https://sites.google.com/view/yonsei-aislab)
Advanced Structural and Integrated Systems Laboratory (ASISL)
Advanced Structures and Integrated Systems Laboratory develops novel construction techniques based on structures and high-tech engineering, and conducts research to develop competitive technology based on economic efficiency. Moreover, in association with the policy, planning, designing, construction, civil engineering, environment, energy, and psychological phases, and actively works to generate practical ac complishments. (Director: | Hong-Chul LIM | hcrhim@yonsei.ac.kr | http://asisl.yonsei.ac.kr/)
High-rise Building Laboratory
This laboratory was established in March, 2000 as part of the architectural scientific technology laboratory of the Engineering Institute of Yonsei University. Since then, various studies have been conducted on the stability and usability of skyscrapers. In 2011, it was chosen for creative research service supported by National Research Foundation of Korea and the Ministry of Education, Science and Technology to conduct research on the development of genetic self-diagnosis and on antiaging technology for architectural structures. In 2021, it was chosen as a mid-level research project hosted by the Ministry of Science and ICT and aims to develop an artificial intelligence model for continuous structural safety and usability monitoring of building structures regardless of the durability of sensors. This laboratory contributes to put creative ideas into practical use and provides high technology for the national construction industry by grafting core technological development and research in related fields to provide high future-oriented value for continuous development of the global construction industry. (Director: Hyo Seon PARK hspark@yonsei.ac.kr | http://highrise.yonsei.ac.kr/)
Structural System and Earthquak e Engineering Laboratory (SSEEL)
The Structural System and Earthquake Engineering Laboratory (SSEEL) covers the full spectrum of structural engineering. We investigate structural behavior at material, member, system, and multi-scale levels, use computational and experimental methods that incorporate a strong theoretical background, and focus on traditional and emerging research topics such as Earthquake Engineering, Sustainable Structural System, and Advanced Realistic Simulation. The ultimate goals are to improve the safety and sustainability of the built environment, to advance fundamental science and engineering, and to contribute to a better life for our community. (Director: JunHee KIM junhkim@yonsei.ac.kr | http://sseel.yonsei.ac.kr/)
Advanced Construction Materials Lab (ACML)
The Advanced Construction Materials Laboratory (ACML) is conducting research on the development and application of cement-based composites, which are the most commonly used structural materials in buildings. In particular, the lab is focused on the study of ultra-high-performance concrete (UHPC) and carbon-eating concrete, which are actively applied in special structures such as irregular buildings and long-span bridges. The lab is also developing functional cement-based composites that can resist extreme loading and achieve self-sensing and self-healing characteristics using nanomaterials. The lab has developed strain-hardening cementitious composites (SHCC) with tensile strain capacity of over 10%, which is the world's highest performance level, in collaboration with the UBC SIERA Group in Canada. The lab is a leading research institution in the fields of UHPC/SHCC worldwide. (Director: Doo-Yeol YOO dyyoo@yonsei.ac.kr | https://sites.google.com/view/acml/home)
Artificial Intelligence and Structural Engineering Lab (AIS)
Artificial Intelligence and Structural Engineering Lab. (AIS Lab.) aims to develop advanced technologies for building safety. Based on the theory of structural engineering, we try to solve the current issues in building structures. To this end, AI is a main strategy of AIS Lab. To more efficiently handle and analyze the information from building structures, AI will be employed and designed. Using AI technology, we will develop novel methods for dynamic structural response prediction, damage detection, and urban safety management. (Director: Byung Kwan OH aeioobk@yonsei.ac.kr | https://sites.google.com/view/yonsei-aislab)