Advanced Aircraft Understanding via the Virtual Aircraft Model
Results of the German Research Initiative VitAM
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Beschreibung
This book reports on the results of a four-year collaborative project between the German Aerospace Center (DLR), three German universities and the aircraft industry. The project was funded by the Ministry for Economic Affairs and Climate Action. In the book, different subprojects are presented, with their corresponding case studies. Readers will find extensive information on simulation strategies required for virtual flight testing, and verification and validation aspects. All in all, this book offers a timely update on the state-of-the-art in flow simulation techniques, flight mechanics methods, integrated multidisciplinary simulation, reduced-order models, and on the development of processes for automated generation of aerodynamic databases. It addresses both researchers and professionals in the field of aviation engineering.
This book reports on the results of a four-year collaborative project between the German Aerospace Center (DLR), three German universities and the aircraft industry. The project was funded by the Ministry for Economic Affairs and Climate Action. In the book, different subprojects are presented, with their corresponding case studies. Readers will find extensive information on simulation strategies required for virtual flight testing, and verification and validation aspects. All in all, this book offers a timely update on the state-of-the-art in flow simulation techniques, flight mechanics methods, integrated multidisciplinary simulation, reduced-order models, and on the development of processes for automated generation of aerodynamic databases. It addresses both researchers and professionals in the field of aviation engineering.
Offers a timely report on Virtual Aircraft Models Demonstrates how to use high-fidelity simulation data and virtual flight tests Covers industrially-relevant case studies
Autor*in
Ralf Heinrich
Themen in »Advanced Aircraft Understanding via the Virtual Aircraft Model«
Multidisciplinary Aircraft Analysis Virtual Flight Testing Calibration of Turbulence Models Flight Test Validation High-Fidelity Simulation Reynolds Stress Modeling Control Surface Modelling Reduced Order Model Linearized CFD Aircraft System Identification Vortex Flow Disturbance Velocity Approach Aircraft Structural Design Aeroelasticity Numerical Flight Dynamics