Charles Puelz gave a talk at the 2018 ECCM-ECFD meeting in Glasgow, Scotland on our recent work on whole-heart modeling. The title of his talk was Immersed boundary finite element hyperelastic heart model.
Category: Talks
Simone Rossi gives the NYU biomathematics/computational biology colloquium
Simone Rossi gave the April 24 NYU biomathematics/computational biology colloquium on his work on modeling cardiac dynamics. The title of his talk is Computational Modeling of Cardiac Electromechanics.
Charles Puelz gives the NC State biomathematics seminar
Charles Puelz gave the April 10 NC State biomathematics seminar on his PhD thesis work. The title of his talk was Computational modeling of Fontan hemodynamics.
SIAM SEAS at UNC
Several group members will be presenting their research at this weekend’s SIAM SEAS conference at UNC-Chapel Hill.
Ben Vadala-Roth is speaking on IB models of incompressible elasticity in MS 22: Biological Fluid-Structure Interaction Systems at Low to Intermediate Reynolds Numbers at noon on Saturday.
Mike Lee is speaking on FSI models of bioprosthetic heart valves in MS 23: Innovations in Biomechanical Modeling of Cardiovascular and Pulmonary Physiology at 11:40 on Saturday.
Charlie Talbot is speaking about his work on developing peridynamic models of soft biological materials in MS 26: Advances in Applied Mathematics.
In addition, Aaron Barrett is presenting a poster on his work on numerical methods for FSI in complex (polymeric) fluids, and Charles Puelz and Margaret Anne Smith are presenting a poster on their work on developing a new FSI heart model.
Charles Puelz gives the Virginia Tech numerical analysis seminar
Charles Puelz gave the November 1 Virginia Tech numerical analysis seminar on his PhD thesis work. The title of his talk was Discretizations of 1D blood flow models and an application to the Fontan physiology.
Charles Puelz gives the UNC applied math seminar
Charles Puelz gave the September 1 UNC applied math colloquium on his PhD thesis work. The title of his talk was One dimensional vessel network models for studying abnormal physiologies.