PUBLICATIONS RELATED TO THE NSF PROJECT: YEAR 1 of 2016-2018

  • B. Muha and S. Canic. Existence of a weak solution to a fluid-structure interaction problem with the Navier slip boundary condition. Journal of Differential Equations 260(12) (2016)

  • C. Puelz, S. Canic, B. Riviere, C.G. Rusin. Comparison of reduced models for blood fow using Runge-Kutta discontinuous Galerkin methods. Applied Numerical Mathematics 115 (2017)

  • D. Forti, A. Quaini, M. Bukac, S. Canic, S. Deparis. A monolithic approach to fluid-composite structure interaction. Journal of Scientific Computing. 72 (1) (2017)

  • S. Basting, A. Quaini, S. Canic and R. Glowinski. On the implementation and benchmarking of an extended ALE Method for FSI problems. Fluid-Structure Interaction: Modeling, Adaptive Discretizations and Solvers." RICAM Publication by De Gruyter (Johann Radon Institute for Computational and Applied Mathematics). To appear (2017).

  • S. Basting, A. Quaini, S. Canic. Extended ALE Method for fluid-structure interaction problems with large structural displacements. Journal of Computational Physics. 331 (2017)

  • S. Canic, M. Galovic, M. Ljulj, J. Tambaca. A dimension-reduction based coupled model of mesh-reinforced shells. SIAM J Applied Mathematics. 77 (2) (2017)

  • Y. Wang, A. Quaini, S. Canic. A higher-order Discontinuous Galerkin/Arbitrary Lagrangian Eulerian partitioned approach to solving fluid-structure interaction problems with incompressible, viscous uids and elastic structures. Journal of Scientific Computing. Under review (2017)

  • H. Al Baba, N. V. Chemetov, S. Necasova, B. Muha. Strong solutions in L2 framework for fluid-rigid body interaction problem - mixed case. Submitted 2017.

  • N. V. Chemetov, S. Necasova, B. Muha. A note on the weak-strong uniqueness for fluid-rigid body interaction problem with slip boundary condition. Submitted 2017.

  • M. Bukac, S. Canic, B. Muha. A partitioned scheme for FSI with slip. RIMS Kokyuroku Proceedings of the Workshop "Mathematical Analysis of Viscous Incompressible Fluid", November 14-16, 2016, Kyoto. To appear.