Publications
2020 |
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Dietmar, Rafolt; Walter, Koch; Odo, Benda; Ewald, Unger Electronical and Physical Requirements for Setting up a Biomedical Simulation Tool in Rhinodiagnostic Miscellaneous EMBEC Abstract Book Contribution, 2020, ISBN: 978-961-243-411-3. Abstract | Links | BibTeX | Tags: 3D-Printed Physical Models, Artificial Breathing, CFD Analysis, Validation @misc{Raf20, In this project, we investigate the possibility to evaluate Computational Fluid Dynamics (CFD) in ENT, especially in rhino diagnostic, using pressure measurements on 3D-printed physical models in a testbed with artificial breathing. We are using the same set of individual segmented DICOM data (STL-format) for CFD analysis as well as to generate additive manufactured models, latter extended with a set of local pressure points. | |
Koch, Walter The Rhinodiagnost Project - Concept and Implementation of a Nasal Airflow Simulator Miscellaneous EMBEC Abstract Book Contribution, 2020, ISBN: 978-961-243-411-3. Abstract | Links | BibTeX | Tags: Airflow Simulator, Computational Fluid Dynamics, Experimental Station, Validation @misc{WKo20, The RHINODIAGNOST services shall be organized in a rapid network providing new, additional decision aids, such as 3D models and flow simulations, for ENT physicians and radiologists” (taken from: http://www.rhinodiagnost.eu ). The Austrian coordinator of the Rhinodiagnost Project, AIT – Applied Information Technique Research Inc., developed an experimental station which allows the simulation of airflow in the nasal cavities using a 3D printed model. The system was designed as low cost system which doesn’t need great financial efforts and fits on a DIN-A-4 sized area of a desk |