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【升本20周年系列学术活动】卢森堡大学Stéphane P.A. Bordas教授学术报告会(4月30日)
发布人:   信息来源:   日期:2024-04-29 08:44:54    打印本文

报告题目:Addressing data scarcity in computational simulation

报告时间:2024年4月30日(周二) 下午19:00-20:00

报告地点:建筑工程学院8#101

报告人:Stéphane P.A. Bordas

报告人单位:卢森堡大学计算工程学院

报告人简介:Professor Stéphane P.A. Bordas works at Institute of Computational Engineering, University of Luxembourg. His areas of expertise are: Computational mechanics with an emphasis on moving discontinuities (mechanics of fracture, biofilm, etc.), Method development (enriched/extended finite elements, meshfree methods, smooth strain finite elements), Evolving discontinuities (level set methods, partition of unity enrichment), Academic research/industrial applications: bridging the gap (porting novel methods to industrial codes, real-world applications of computational mechanics and novel method development). He has published over two hundred and thirty refereed publications, most of them in Computer Methods in Applied Mechanics and Engineering and Computational Mechanics. Prof. Stéphane is also an editor of the editorial board of the journal such as Computers and Structures and Advances in Engineering Software. He is highly cited researcher in the field of Computer Science, and he is also the top reviewers for Computer Science, Engineering and Materials Science. Professor Stéphane P.A. Bordas has published more than 500 papers and been cited more than 20000 times.

报告摘要:Data scarcity is a major challenge in certain fields that rely on data-driven modeling and AI, especially when system-specific data is challenging to acquire. We focus in this talk on surgical simulation, wind energy harvesting, and computational archaeology. In these fields, it is essential to harvest specific data: patient-specific data in surgical simulation, environment-specific data in wind energy harvesting, and archaeological site-specific data in computational archaeology. To address the issue of data scarcity, real-time simulations can rely on pre-training on generic representations that can be updated as actual, system-specific data is acquired. The real-time updating of this data allows for a more accurate and patient-specific simulation.

邀请单位:黄淮学院建筑工程学院  河南省结构力学与仿真计算国际联合实验室


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