Formally Invited Seminar Lectures

  1. Fluid–structure interaction modeling for biomedical and aerospace applications. Virtual Seminar in the Department of Mechanical Engineering at the University of Connecticut. Storrs, Connecticut, 10/23/2020.
  2. Computational fluid–structure interaction modeling for aerospace and biomedical applications. Virtual Seminar at Glasgow Computational Engineering Centre (GCEC) at the University of Glasgow. Glasgow, Scotland, 09/03/2020.
  3. Fluid–structure interaction modeling for aerospace and biomedical applications. Virtual Seminar in the School for Engineering of Matter, Transport and Energy at Arizona State University. Tempe, Arizona, 03/19/2020.
  4. Immersogeometric analysis: A geometrically flexible framework for fluid–structure interaction and biomedical applications. Seminar in the Department of Power Mechanical Engineering at National Tsing Hua University. Hsinchu, Taiwan, 12/05/2019.
  5. Immersogeometric analysis: A geometrically flexible framework for CFD, fluid–structure interaction, and biomedical applications. Seminar in the Department of Civil Engineering at National Taiwan University. Taipei, Taiwan, 11/25/2019.
  6. Immersogeometric analysis: A geometrically flexible technique for CFD, fluid–structure interaction, and biomedical applications. Seminar in the Department of Civil and Environmental Engineering at the University of Illinois at Urbana-Champaign. Urbana, Illinois, 10/28/2019.
  7. Immersogeometric analysis: A geometrically flexible technique for CFD, fluid–structure interaction, and biomedical applications. Seminar at the Oden Institute at The University of Texas at Austin. Austin, Texas, 09/24/2019.
  8. Fluid–structure interaction modeling, simulation and analysis of transcatheter aortic valve replacement. Seminar in the Department of Civil and Materials Engineering at the University of Illinois at Chicago. Chicago, Illinois, 04/03/2019.
  9. Fluid–structure interaction modeling of bioprosthetic heart valves. Seminar in the Department of Mechanical and Manufacturing Engineering at the University of Calgary. Calgary, Canada, 04/30/2018.
  10. A framework for bioprosthetic heart valve design and analysis. Seminar in the School of Aerospace and Mechanical Engineering at The University of Oklahoma. Norman, Oklahoma, 10/19/2017.
  11. Computational fluid–structure interaction for thin-structural applications. Seminar in the Department of Marine Technology at Norwegian University of Science and Technology. Trondheim, Norway, 09/14/2017.
  12. A framework for patient-specific bioprosthetic heart valve design using immersogeometric FSI. Seminar in the Department of Civil Engineering and Architecture at the University of Pavia. Pavia, Italy, 04/03/2017.
  13. An immersogeometric framework for patient-specific heart valve design and analysis. Seminar in the Department of Structural Engineering at the University of California, San Diego. La Jolla, California, 01/17/2017.
  14. Immersogeometric analysis: Fundamentals and applications. Seminar in the Department of Mathematics at Lehigh University. Bethlehem, Pennsylvania, 04/20/2016.
  15. Design optimization of a hydraulic arresting gear using immersogeometric FSI. Seminar in the Department of Mechanical and Industrial Engineering at The University of Iowa. Iowa City, Iowa, 03/10/2016.
  16. Design optimization of a hydraulic arresting gear using immersogeometric FSI. Seminar in the Department of Civil Engineering and Architecture at the University of Pavia, Pavia, Italy, 03/01/2016.
  17. Parametric design optimization using isogeometric and immersogeometric methods. Seminar at the Institute of Applied Mechanics at Technische Universität Braunschweig. Braunschweig, Germany, 10/26/2015.
  18. Isogeometric design, analysis and optimization. Seminar in the Department of Civil Engineering at Nihon University. Tokyo, Japan, 10/16/2015.
  19. Parametric design optimization using isogeometric and immersogeometric methods. Seminar at the Waseda Institute for Advanced Study at Waseda University. Tokyo, Japan, 10/15/2015.
  20. Immersogeometric analysis with applications to flow over complex geometries and fluid–structure interaction of heart valves. Warren Lecture at the University of Minnesota. Minneapolis, Minnesota, 01/23/2015.
  21. Isogeometric fluid–structure interaction analysis of bioprosthetic heart valves. Seminar in the Department of Civil Engineering and Architecture at the University of Pavia. Pavia, Italy, 07/10/2014.
  22. Computational fluid–structure interaction analysis of wind energy and biomedical applications. Seminar in the Department of Mechanical Engineering at Northwestern University. Evanston, Illinois, 02/27/2014.
  23. Computational fluid–structure interaction analysis of wind energy and biomedical applications. Seminar in Applied Mathematics and Applied Mechanics at the Center of Advanced Study in Theoretical Sciences at National Taiwan University. Taipei, Taiwan, 02/19/2014.
  24. Fluid–structure interaction analysis of wind turbines and bioprosthetic heart valves. Seminar in the Department of Structural Engineering at the University of California, San Diego. La Jolla, California, 10/09/2013.
  25. Computational fluid–structure interaction: Development and applications to wind turbine analysis and cardiovascular simulation. Seminar in the Department of Mechanical Engineering at Iowa State University. Ames, Iowa, 04/16/2012.
  26. Computational fluid–structure interaction: Developments and applications to wind turbine analysis and cardiovascular mechanics. Seminar in the Department of Mechanical Engineering at Texas A&M University. College Station, Texas, 02/29/2012.
  27. New techniques for fluid–structure interaction modeling with applications to wind energy and cardiovascular mechanics. Seminar in the Department of Engineering Science and Ocean Engineering at National Taiwan University. Taipei, Taiwan, 05/26/2010.
  28. Computational fluid-structure interaction with applications to cardiovascular mechanics and wind energy. Seminar at the Chair of Structural Analysis at Technische Universität München. München, Germany, 10/06/2009.


Other Formally Invited Lectures

  1. Immersogeometric fluid–structure interaction for biomedical applications. Keynote presentation at the 7th Asian Pacific Congress on Computational Mechanics (APCOM 2019). Taipei, Taiwan, 12/18/2019.
  2. Introduction to immersogeometric methods. Invited Lecture at the International Workshop on Multiphase Flows: Analysis, Modelling and Numerics at Waseda University. Tokyo, Japan, 11/22/2019.
  3. Fluid–structure interaction modeling of heat valves. Invited Lecture at the International Workshop on Multiphase Flows: Analysis, Modelling and Numerics at Waseda University. Tokyo, Japan, 11/22/2019.
  4. Fluid–structure interaction analysis of transcatheter heart valve mechanics. Keynote presentation at the 56th Annual Technical Meeting of the Society of Engineering Science (SES 2019) at Washington University in St. Louis. St. Louis, Missouri, 10/13/2019.
  5. Fluid–structure interaction modeling and simulation of transcatheter heart valves. Keynote presentation at the 20th International Conference on Finite Elements in Flow Problems (FEF 2019). Chicago, Illinois, 04/02/2019.
  6. Immersogeometric fluid–structure interaction: Fundamentals and applications. Keynote presentation at the 12th Asian Computational Fluid Dynamics Conference (ACFD 2018). Yilan, Taiwan, 10/16/2018.
  7. Ventricular, vascular and valvular fluid–structure interaction. Keynote presentation at the 14th U.S. National Congress on Computational Mechanics (USNCCM14). Montreal, Canada, 07/18/2017.
  8. Modern computational modeling and simulation using HPCs. Invited Lecture at the Workshop on High Performance Computing and Applications for Women in Science & Engineering at Lehigh University. Bethlehem, Pennsylvania, 06/01/2017.
  9. Immersogeometric fluid–structure interaction: application to parametric design optimization. Keynote presentation at the 53rd Annual Technical Meeting of the Society of Engineering Science (SES 2016) at the University of Maryland. College Park, Maryland, 10/04/2016.
  10. Advanced fluid–structure interaction simulation of modern wind turbines. Keynote presentation at the 3rd International Workshops on Advances in Computational Mechanics (IWACOM-III). Tokyo, Japan, 10/13/2015.
  11. An interactive geometry modeling and parametric design platform for isogeometric analysis with application to wind turbine blades. Keynote presentation at the 18th International Conference on Finite Elements in Flow Problems (FEF 2015). Taipei, Taiwan, 03/18/2015.
© Ming-Chen Hsu 2023