Title:
Data-Driven Sonification of CFD Aneurysm Models
Data-Driven Sonification of CFD Aneurysm Models
Authors
MacDonald, Daniel E.
Natarajan, Thangam
Windeyer, Richard C.
Coppin, Peter
Steinman, David A.
Natarajan, Thangam
Windeyer, Richard C.
Coppin, Peter
Steinman, David A.
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Abstract
A novel method is presented for inspecting and characterizing
turbulent-like hemodynamic structures in intracranial cerebral
aneurysms by sonification of data generated using Computational
Fluid Dynamics (CFD). The intention of the current research is
to intuitively communicate flow complexity by augmenting conventional
flow visualizations with data-driven sound, thereby increasing
the ease of interpretation of dense spatiotemporal data
through multimodal presentation. The described implementation
allows the user to listen to flow fluctuations thought to indicate
turbulent-like blood flow patterns that are often visually difficult
to discriminate in conventional flow visualizations.
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Date Issued
2018-06
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This work is licensed under Creative Commons Attribution Non-Commercial 4.0 International License.
Attribution-NonCommercial 3.0 United States
Attribution-NonCommercial 3.0 United States