<p>To tightly integrate Computer Aided Design (CAD) and Finite Element Analysis (FEA), isogeometric analysis was proposed by employing the same basis functions for geometric representation in analysis, aiming to eliminate the time-consuming mesh generation in traditional FEA. Non-Uniform Rational B-Spline (NURBS), as the current industry standard in CAD community, was the first candidate utilized in isogeometric analysis. However, due to the global tensor-product nature of NURBS, it does not support local refinement and arbitrary topology. Local refinement is essential in both local editing (from perspective of design) and adaptive analysis (from perspective of analysis), which are known for high efficiency in terms of computation cost. Arb...
This thesis addresses an adaptive higher-order method based on a Geometry Independent Field approxim...
We present a novel blended B-spline method to construct bicubic/tricubic splines over unstructured q...
Isogeometric analysis has become a powerful alternative to standard finite elements due to its flexi...
To tightly integrate Computer Aided Design (CAD) and Finite Element Analysis (FEA), isogeometric ana...
We present a novel method named truncated hierarchical unstructured splines (THU-splines) that suppo...
Isogeometric finite element analysis has become a powerful alternative to standard finite elements ...
We present an adaptive local refinement technique for isogeometric analysis based on hierarchical T-...
Isogeometric analysis based on NURBS (Non-Uniform Rational B-Splines) as basis functions preserves t...
We present two adaptive refinement techniques, namely adaptive local refinement and adaptive hierarc...
The construction of suitable mesh configurations for spline models that provide local refinement cap...
We explore hierarchical refinement of NURBS as a basis for adaptive isogeometric and immersed bounda...
This thesis addresses an adaptive higher-order method based on a Geometry Independent Field approxim...
We present a novel blended B-spline method to construct bicubic/tricubic splines over unstructured q...
Isogeometric analysis has become a powerful alternative to standard finite elements due to its flexi...
To tightly integrate Computer Aided Design (CAD) and Finite Element Analysis (FEA), isogeometric ana...
We present a novel method named truncated hierarchical unstructured splines (THU-splines) that suppo...
Isogeometric finite element analysis has become a powerful alternative to standard finite elements ...
We present an adaptive local refinement technique for isogeometric analysis based on hierarchical T-...
Isogeometric analysis based on NURBS (Non-Uniform Rational B-Splines) as basis functions preserves t...
We present two adaptive refinement techniques, namely adaptive local refinement and adaptive hierarc...
The construction of suitable mesh configurations for spline models that provide local refinement cap...
We explore hierarchical refinement of NURBS as a basis for adaptive isogeometric and immersed bounda...
This thesis addresses an adaptive higher-order method based on a Geometry Independent Field approxim...
We present a novel blended B-spline method to construct bicubic/tricubic splines over unstructured q...
Isogeometric analysis has become a powerful alternative to standard finite elements due to its flexi...