| 2008 |
|---|
| 6 | EE | T. Binzoni,
T. S. Leung,
R. Giust,
Daniel A. Rüfenacht,
Amir Gandjbakhche:
Light transport in tissue by 3D Monte Carlo: Influence of boundary voxelization.
Computer Methods and Programs in Biomedicine 89(1): 14-23 (2008) |
| 5 | EE | Rafik Ouared,
Bastien Chopard,
B. Stahl,
Daniel A. Rüfenacht,
H. Yilmaz,
Guy Courbebaisse:
Thrombosis modeling in intracranial aneurysms: a lattice Boltzmann numerical algorithm.
Computer Physics Communications 179(1-3): 128-131 (2008) |
| 2006 |
|---|
| 4 | EE | Bastien Chopard,
Rafik Ouared,
Daniel A. Rüfenacht:
A lattice Boltzmann simulation of clotting in stented aneursysms and comparison with velocity or shear rate reductions.
Mathematics and Computers in Simulation 72(2-6): 108-112 (2006) |
| 3 | EE | Miki Hirabayashi,
Makoto Ohta,
Krisztina Baráth,
Daniel A. Rüfenacht,
Bastien Chopard:
Numerical analysis of the flow pattern in stented aneurysms and its relation to velocity reduction and stent efficiency.
Mathematics and Computers in Simulation 72(2-6): 128-133 (2006) |
| 2004 |
|---|
| 2 | EE | Miki Hirabayashi,
Makoto Ohta,
Daniel A. Rüfenacht,
Bastien Chopard:
A lattice Boltzmann study of blood flow in stented aneurism.
Future Generation Comp. Syst. 20(6): 925-934 (2004) |
| 2003 |
|---|
| 1 | EE | Miki Hirabayashi,
Makoto Ohta,
Daniel A. Rüfenacht,
Bastien Chopard:
Lattice Boltzmann Analysis of the Flow Reduction Mechanism in Stented Cerebral Aneurysms for the Endovascular Treatment.
International Conference on Computational Science 2003: 1044-1053 |
