Immersed isogeometric analysis based on a hybrid collocation/finite cell method

Journal
Computer methods in applied mechanics and engineering  
Volume
405
Article Number
115856
Citation
Computer Methods in Applied Mechanics and Engineering 405: 115856 (2023-02-15)
Publisher DOI
10.1016/j.cma.2022.115856
Scopus ID
2-s2.0-85145579279
We propose an immersed approach for the isogeometric collocation method, combined with the Galerkin-based finite cell method, to avoid the subdivision of complex geometries in too many patches. The presented technology further develops the hybrid collocation concept to accommodate both numerical methods within a single framework, providing a systematic technique for selecting the method to be used. We perform several numerical tests to demonstrate that the methodology guarantees the same convergence rates obtained using the standard isogeometric collocation method.
Subjects
Finite cell method
Hybrid isogeometric collocation
Immersed method
Isogeometric analysis
Trimmed surface