Humboldt-Universität zu Berlin |
DFG Research Center MATHEON |
Deutsches Zentrum für Luft- und Raumfahrt |
The workshop aims to bring together research scientists from universities, research institutes and industry that work in the field of aerodynamic shape optimization. The requirements for practical shape optimization will be worked out, new solution approaches and optimization tools from research institutes will be presented in conjunction with innovative ideas from the forefront of mathematical research at universities. Particular attention will be paid to the fact that aerodynamic shape optimisation is a part of a larger, multi-disciplinary design process.
Local Organizers: Nicolas Gauger, Andreas Griewank, Jan Riehme
Time | Speaker, Title |
9:00-9:40 |
Norbert Kroll, DLR Braunschweig Flow Simulation and Shape Optimization for Aircraft Design |
9:40-10:20 |
Nicolas Gauger, HU Berlin und DLR Braunschweig Efficient Aerodynamic Shape Designs by Adjoint Approaches |
10:20-10:40 |
Coffee break |
10:40-11:20 |
Werner Haase, EADS Military Aircraft, München Industrial Requirements for Aircraft Design |
11:20-12:00 |
Suresh Deshpande, Jawaharlal Nehru Center for Advanced Scientific Research, Bangalore, India G.N.Shashi Kumar, and A.K.Mahendra, Machine Dynamics Division, BARC, Mumbai, India Shape Optimisation using Grid Free Solver and Evolutionary Algorithm |
12:00-13:00 |
Lunch break |
13:00-13:40 |
Jens-Dominik Müller, Queen's University of Belfast Performance and Application of Discrete Adjoint CFD Codes using Automatic Differentiation |
13:40-14:20 |
Volker Schulz, University Trier Simultaneous Pseudo-Timestepping Methods for Aerodynamic Shape Optimization |
14:20-15:00 |
Andreas Griewank, Nicolas Gauger, Jan Riehme, HU Berlin Definition and Evaluation of projected Hessians for Piggyback Optimization |
15:00-15:20 |
Coffee break |
15:20-16:00 |
Per Weinerfelt , Saab Aerosystems, Linköping Optimzation using Adjoint Technique Applied to Problems in Aerodynamics, Electromagnetics and Bio Fluid Mechanics |
16:00-16:40 |
Thomas Slawig, TU Berlin Analytic Representations for Gradients in Shape Optimization |
16:40-17:20 |
Xiaofan Yang, KTH Stockholm Turbulence Modeling of Separation Control by means of Vortex Generators |
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