Abstract
Cardiovascular disease (CVD) affects more than 90 million adults in the United States. In recent years, computational hemodynamic models have helped improve our understanding of CVD progression; however, such research workflows can be challenging and unintuitive to operate. We thus developed Harvis, a software platform with a flexible GUI for performing vascular simulations and a VR-capable interface for geometry modification and flow visualization. The aim of Harvis is to streamline and integrate this process for research use and future clinical applications. We also present a user study (n=26) that evaluates interaction with vascular modeling on 2D and VR displays.
DOI
10.1016/j.jocs.2020.101091
Year