- ESR01 – The combined use of mesh morphing, forcefeedback device and static reduced-order models for achieving real-time hemodynamic solution over geometric changes
- ESR02 – The combined use of mesh morphing, forcefeedback device and dynamic reduced-order models for achieving real-time hemodynamic solution over geometric changes
- ESR03 – Modelling and 3D printing for intracranial aneurysms surgery
- ESR04 – HiFi flow solvers for fixed walls, running on GPUs, and ROMs for aneurysm studies
- ESR05 – HiFi flow solvers for flexible walls, running on GPUs, and Big Data Analysis for aneurysm studies
- ESR06 – Uncertainty Quantifications, using Polynomial Chaos Expansion, of CFD predictions for aneurysm studies
- ESR07 – Patient-specific prediction of aneurysm growth and rupture in the ascending thoracic aorta
- ESR08 – Simulating endovascular aortic repair towards assessing long-term treatment implications
- ESR09 – Clinical image processing and Big Data analysis
- ESR10 – Tissue characterization and endovascular aortic repair in a circulatory mock loop
- ESR11 – Image guided navigation technology in endovascular interventions: AM generated mock-ups
- ESR12 – Image guided navigation technology in endovascular interventions: advanced CAE tools and mesh morphing
- ESR13 – Personalized Ultrasound-based mechanical characterization of abdominal aortic aneurysm (AAA)
- ESR14 – Personalized Ultrasound-based hemodynamics simulations in the diseased abdominal aorta