Ref.No: | 96001600 |
Start date: | 15.07.2024 |
End date: | 14.07.2025 |
Approval date: | 19.06.2024 |
Department: | NAVAL ARCHITECTURE & MARINE ENGINEERING |
Sector: | NAVAL AND MARINE HYDRODYNAMICS |
Financier: | HORIZON EUROPE, E.C. /DFKI DEUTSCHES FORSCHUNGSZENTRUM FUR KUNSTLICHE INTELLIGENZ GMBH |
Budget: | 195.802,00 € |
Public key: | Ψ59Φ46ΨΖΣ4-ΔΛΓ |
Scientific Responsible: | Assist. Prof. PAPADAKIS |
Email: | papis@fluid.mech.ntua.gr |
Description: | THIS PROJECT AIMS TO CREATE A COMPREHENSIVE WORKFLOW TO ENHANCE THE VISUALIZATION OF COMPUTATIONAL FLUID DYNAMICS (CFD) RESULTS AND RELATED DATA IN A VIRTUAL REALITY (VR) ENVIRONMENT. THE WORKFLOW WILL INTEGRATE DATA PRODUCED BY TRADITIONAL CFD SOLVERS, WHICH RELY ON ESTABLISHED NUMERICAL METHODS AND PHYSICAL MODELS, WITH ADVANCED MACHINE LEARNING TECHNIQUES THAT CAN AUGMENT AND ACCELERATE SIMULATIONS. BY UTILIZING BOTH APPROACHES, THE PROJECT WILL GENERATE HIGH-FIDELITY, THREE-DIMENSIONAL COMPUTATIONAL DATA THAT CAN BE VISUALIZED IN VR. USERS WILL HAVE THE ABILITY TO IMMERSE THEMSELVES IN THE DATA, ALLOWING FOR INTUITIVE INTERACTION AND DETAILED ANALYSIS OF COMPLEX FLOW PHENOMENA. |