Inhaltsangabe1. Introduction.- 2. Definition of the Problems for the Analysis.- 2.1 Test Case T1: Inverse Problem for a Nozzle.- 2.2 Test Case T2: Subsonic Optimization Problem for a Nozzle.- 2.3 Test Case T3: Transonic Optimization Problem for a Nozzle.- 2.4 Test Case T4: Inverse Problem for a 2D Single Airfoil.- 2.5 Test Case T6: Optimization Problem for a 2D Single Airfoil.- 2.6 Test Case T8: Test Case for Multi-Point 2D Airfoil Design.- 2.7 Test Case T10: Reconstruction Problem for a 2D Multi-Element Airfoil.- 2.8 Test Case T14: Design and Reconstruction Test Case for Single-Point 3D Wing Design.- 2.9 Test Case T17: Reconstruction Problem for a 3D Nozzle.- 3. Contributions to the Resolution of the Workshop Test Cases.- Contribution to problems T4 and T6 finite element GMRES and conjugate gradient solvers.- Wing design with a 3D-subsonic inverse panel method.- Direct optimization of transonic airfoils.- A residual correction method applied to 2D multi-point airfoil design and 3D single-point wing design.- Comparison of some optimization methods and their application in the shape optimization of lifting airfoils.- Shape optimization of an Euler flow in a nozzle.- Aerodynamic shape optimization using automatic adaptive remeshing.- Single-pass method for the solution of the 2D & 3D inverse potential problem.- 4. Description of the Graphic Software Used for the Workshop.- 5. Synthesis of the Workshop Test Cases.- 6. Conclusions and Further Comments.

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