Methods of Computational Fluid Dynamics (CFD) nowadays play an important role in the production process of the automotive industry. Progress made in recent years offers highly sophisticated airflow simulation models used in engineering for optimization and verification of aerodynamics. The key point of the Airflow Simulation Tool for Human Medical Application (ASTHMA) developed at the Darmstadt University of Technology in cooperation with the University Hospital in Greifswald is to use these techniques to support the rhinosurgeon in diagnosis and therapy planning. A system is developed that realizes a 3-D reconstruction of the endonasal cavaties based on computer tomography (CT) scans. This semiautomatic reconstruction method requires minim...
OBJECTIVE: To use computer simulations to describe the role of fluid dynamics in the human upper air...
This paper describes the simulation of airflow in human nasal airways using voxel-based modeling cha...
With improves in computing hardware and CFD methods, it is possible to work with more complex geomet...
Methods of Computational Fluid Dynamics (CFD) nowadays play an important role in the production proc...
The lack of situed diagnostic tools providing insight into patient specific flow characteristics of ...
Passage of nasal airflow during breathing is crucial in achieving accurate diagnosis and optimal the...
Patient specific 3D computational model of diseased human nasal cavity was developed for pre and pos...
The air flow in the human nasal cavity was simulated applying the Finite Element Method. This accomp...
The project deals with the simulation of the air flow in the human nose. To reach this goal we utili...
Computer assisted planning systems based on patient specific tomography data has been proofed to be ...
Several limitations associated with the conventional diagnostic approach, demands newer methods of e...
Nowadays various studies utilizing computational techniques are trying to contribute to the medical ...
The study is looking into the potential of using computational fluid dynamics (CFD) as a tool for pr...
In this master thesis, a patient specific computational fluid dynamics (CFD) \nomenclature{CFD}{Comp...
The prediction of detailed flow patterns in nasal cavities using computational fluid dynamics (CFD) ...
OBJECTIVE: To use computer simulations to describe the role of fluid dynamics in the human upper air...
This paper describes the simulation of airflow in human nasal airways using voxel-based modeling cha...
With improves in computing hardware and CFD methods, it is possible to work with more complex geomet...
Methods of Computational Fluid Dynamics (CFD) nowadays play an important role in the production proc...
The lack of situed diagnostic tools providing insight into patient specific flow characteristics of ...
Passage of nasal airflow during breathing is crucial in achieving accurate diagnosis and optimal the...
Patient specific 3D computational model of diseased human nasal cavity was developed for pre and pos...
The air flow in the human nasal cavity was simulated applying the Finite Element Method. This accomp...
The project deals with the simulation of the air flow in the human nose. To reach this goal we utili...
Computer assisted planning systems based on patient specific tomography data has been proofed to be ...
Several limitations associated with the conventional diagnostic approach, demands newer methods of e...
Nowadays various studies utilizing computational techniques are trying to contribute to the medical ...
The study is looking into the potential of using computational fluid dynamics (CFD) as a tool for pr...
In this master thesis, a patient specific computational fluid dynamics (CFD) \nomenclature{CFD}{Comp...
The prediction of detailed flow patterns in nasal cavities using computational fluid dynamics (CFD) ...
OBJECTIVE: To use computer simulations to describe the role of fluid dynamics in the human upper air...
This paper describes the simulation of airflow in human nasal airways using voxel-based modeling cha...
With improves in computing hardware and CFD methods, it is possible to work with more complex geomet...