Key words: Fluid-structure interaction, partitioned or staggered algorithm, radial basis function Abstract. This paper gives a survey on kernel-based scattered data interpolation meth-ods in the context of static aeroelastic computations. We describe the general procedure, address problems and solutions for large-scale data sets, for flat data sets, and for rota-tional information. Finally, we demonstrate the versatility of the method by showing two examples.
AbstractA hierarchical scheme is presented for smoothly interpolating scattered data with radial bas...
SIGLEAvailable from TIB Hannover: RN 8680(226) / FIZ - Fachinformationszzentrum Karlsruhe / TIB - Te...
A tightly coupled fluid-structure interaction (FSI) methodology is developed for aeroelasticity anal...
This paper gives a survey on kernel-based scattered data interpolation methods in the context of sta...
A multivariate interpolation scheme, using radial basis functions, is presented, which results in a ...
Aeroelasticity studies the interaction between aerodynamic forces and structural responses, and is o...
Eine wichtige Aufgabe in vielen ingenieurtechnischen, wissenschaftlichen Problemen ist ...
Summary. In this paper, we describe a hybrid method for problems coming from computational aeroelast...
Summarization: The development of an efficient partitioned FSI coupling scheme is reported in this p...
During aeroelastic simulation, forces and displacements must be interpolated between the non-matchin...
Summarization: In this work the development of a partitioned FSI coupling procedure is reported, aim...
A mesh-free interpolation method for the use in aeroelastic aircraft simulations was implemented. Th...
Fluid structure interaction (FSI) is a complex phenomenon that in several applications cannot be neg...
Fluid structure interaction (FSI) is a complex phenomenon that in several applications cannot be neg...
The interaction between a flexible structure and the surrounding fluid gives rise to a variety of ph...
AbstractA hierarchical scheme is presented for smoothly interpolating scattered data with radial bas...
SIGLEAvailable from TIB Hannover: RN 8680(226) / FIZ - Fachinformationszzentrum Karlsruhe / TIB - Te...
A tightly coupled fluid-structure interaction (FSI) methodology is developed for aeroelasticity anal...
This paper gives a survey on kernel-based scattered data interpolation methods in the context of sta...
A multivariate interpolation scheme, using radial basis functions, is presented, which results in a ...
Aeroelasticity studies the interaction between aerodynamic forces and structural responses, and is o...
Eine wichtige Aufgabe in vielen ingenieurtechnischen, wissenschaftlichen Problemen ist ...
Summary. In this paper, we describe a hybrid method for problems coming from computational aeroelast...
Summarization: The development of an efficient partitioned FSI coupling scheme is reported in this p...
During aeroelastic simulation, forces and displacements must be interpolated between the non-matchin...
Summarization: In this work the development of a partitioned FSI coupling procedure is reported, aim...
A mesh-free interpolation method for the use in aeroelastic aircraft simulations was implemented. Th...
Fluid structure interaction (FSI) is a complex phenomenon that in several applications cannot be neg...
Fluid structure interaction (FSI) is a complex phenomenon that in several applications cannot be neg...
The interaction between a flexible structure and the surrounding fluid gives rise to a variety of ph...
AbstractA hierarchical scheme is presented for smoothly interpolating scattered data with radial bas...
SIGLEAvailable from TIB Hannover: RN 8680(226) / FIZ - Fachinformationszzentrum Karlsruhe / TIB - Te...
A tightly coupled fluid-structure interaction (FSI) methodology is developed for aeroelasticity anal...