Why did you start using Flowgy Innovation?
I wanted to understand the relationship between 3D anatomy and airflow in the respiratory system using CFD techniques, as well as to explore its potential for 3D virtual reconstruction of fossils.
What did you use before Flowgy Innovation to successfully achieve your project goals?
Before Flowgy Innovation I did not use any CFD tools. For virtual reconstructions we used 3D geometric morphometry.
What does Flowgy Innovation bring to you that you didn't have?
The interactive 3D and virtual reconstruction of fossil anatomical structures related to the respiratory system and their functional simulation.
What does Flowgy Innovation help you with most?
Flowgy Innovation allows me to perform an interactive 3D and virtual reconstruction of fossil anatomical structures related to the respiratory system and their functional simulation.
What do team members think about Flowgy Innovation?
It is a powerful software, and potentially useful for paleontological applications, with versions that are constantly being upgraded and improved.
Why is Flowgy Innovation important in achieving the expected results?
Because until now there was no CFD tool developed for the interactive 3D and virtual reconstruction of fossil anatomical structures related to the respiratory system and that also allowed the realization of simulations to determine their functionality.
How does Flowgy Innovation affect your daily work life?
Flowgy Innovation provides me with the necessary tools to achieve the objectives of our projects.
What plans do you have for Flowgy Innovation in the future?
We want to implement Flowgy Innovation in the laboratory as a fixed tool for interactive 3D and virtual reconstruction of fossil anatomical structures related to the respiratory system and for functional simulation of anatomical structures.