• SIMR 2025

    Empowering Resilience: Transferring Technologies into Solutions for Effective Disaster Risk Reduction.

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Training Course Speakers

Date: September 21, 2023     Time:13:30-17:50     Venue: Shufeng Hall (3F)

Jianhong Ye

Institute of Rock and Soil Mechanics, Chinese Academy of Sciences, China

Date: Sept. 21     Time: 13:30-14:50

Bio.: Jianhong Ye is currently a full professor at the Institute of Rock and Soil Mechanics, Chinese Academy of Sciences (CAS). He obtained BEng from the China University of Geosciences (Beijing) in 2006, MEng from the Institute of Geology and Geophysics, CAS in 2019, and PhD from the University of Dundee in 2012. He accepted support from the National Overseas High-Level Talent Program in 2015. Over the last 14 years, he has self-developed the computational platform FssiCAS. His research interests include offshore geotechnics, marine engineering geology, Fluid-Structure-Seabed Interaction, and computational geomechanics. So far, he has published more than 60 high-level papers with nearly 1800 citations (Google Scholar). He currently serves as an editorial board member of Bulletin of Engineering Geology and the Environment, China Ocean Engineering, Applied Science-Basel, Rock and Soil Mechanics etc. Professor Ye has received several academic awards in China, and has granted more than ¥20 million funding to support his research.

  • Speech Title: A Chinese Self-developed Computational Platform Fssicas for Offshore Geotechnics and Marine Engineering Geology: Theory, Verifications, Characteristics and Applications

    Abstract: FssiCAS is a Chinese self-developed computational platform in the fields of offshore geotechnics and marine engineering geology, available at https://www.fssi.ac.cn/download.html. It can be utilized to study the fluid-structure-seabed interaction, ocean wave/seismic wave-induced dynamics and instability of marine structure and its seabed foundation. It also can be used in the traditional geotechnical engineering problems involving soil/rock mechanics. In the training course, we will systematically introduce the mathematical theory, a series of experimental and analytical verifications for FssiCAS. Most importantly, the typical characteristics and functionalities of FssiCAS will be emphasized. Finally, some typical engineering applications about breakwaters, offshore wind turbines will be detailly presented.

Jianhong Ye

Institute of Rock and Soil Mechanics, Chinese Academy of Sciences, China

Date: Sept. 21     Time: 13:30-14:50

Bio.: Jianhong Ye is currently a full professor at the Institute of Rock and Soil Mechanics, Chinese Academy of Sciences (CAS). He obtained BEng from the China University of Geosciences (Beijing) in 2006, MEng from the Institute of Geology and Geophysics, CAS in 2019, and PhD from the University of Dundee in 2012. He accepted support from the National Overseas High-Level Talent Program in 2015. Over the last 14 years, he has self-developed the computational platform FssiCAS. His research interests include offshore geotechnics, marine engineering geology, Fluid-Structure-Seabed Interaction, and computational geomechanics. So far, he has published more than 60 high-level papers with nearly 1800 citations (Google Scholar). He currently serves as an editorial board member of Bulletin of Engineering Geology and the Environment, China Ocean Engineering, Applied Science-Basel, Rock and Soil Mechanics etc. Professor Ye has received several academic awards in China, and has granted more than ¥20 million funding to support his research.

  • Speech Title: A Chinese Self-developed Computational Platform Fssicas for Offshore Geotechnics and Marine Engineering Geology: Theory, Verifications, Characteristics and Applications

    Abstract: FssiCAS is a Chinese self-developed computational platform in the fields of offshore geotechnics and marine engineering geology, available at https://www.fssi.ac.cn/download.html. It can be utilized to study the fluid-structure-seabed interaction, ocean wave/seismic wave-induced dynamics and instability of marine structure and its seabed foundation. It also can be used in the traditional geotechnical engineering problems involving soil/rock mechanics. In the training course, we will systematically introduce the mathematical theory, a series of experimental and analytical verifications for FssiCAS. Most importantly, the typical characteristics and functionalities of FssiCAS will be emphasized. Finally, some typical engineering applications about breakwaters, offshore wind turbines will be detailly presented.

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