Efficient numerical methods and computational tools for solving patient-specific problems in haemodynamics.
| Thesis title in Czech: | Efektivní numerické metody a výpočetní nástroje pro řešení reálných problémů v hemodynamice. |
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| Thesis title in English: | Efficient numerical methods and computational tools for solving patient-specific problems in haemodynamics. |
| Key words: | počítačová mechanika tekutin|paralelní výpočty|metoda konečných prvků|asimilace dat|translační výzkum|reálná data |
| English key words: | computational fluid dynamics|parallel computations|finite element method|data assimilation|translational research|patient-specific data |
| Academic year of topic announcement: | 2019/2020 |
| Thesis type: | dissertation |
| Thesis language: | angličtina |
| Department: | Mathematical Institute of Charles University (32-MUUK) |
| Supervisor: | RNDr. Jaroslav Hron, Ph.D. |
| Author: | hidden - assigned and confirmed by the Study Dept. |
| Date of registration: | 16.07.2020 |
| Date of assignment: | 16.07.2020 |
| Confirmed by Study dept. on: | 17.09.2020 |
| Date and time of defence: | 29.09.2025 12:15 |
| Date of electronic submission: | 16.06.2025 |
| Date of submission of printed version: | 18.06.2025 |
| Date of proceeded defence: | 29.09.2025 |
| Opponents: | Cristóbal Bertoglio |
| prof. Patrick Farrell, Ph.D. | |
| Guidelines |
| The work will be focused on efficient computational methods and their implementations for heamodynamical problems in real world settings. The focus will be on their connection to real data available from modern imaging methods like 4D-MRI and their incorporation in predictive computations in problems of cardiovascular mechanics for example.
The areas of investigation will be: - efficient and reliable numerical flow solvers - modelling of different boundary conditions and interaction with surroundings - data assimilation of available measured data into the simulations |
| References |
| TBD |