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Morning 8:00 - 11:00 |
Afternoon 15:00 - 18:00 |
Evening |
| So 20.2. |
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18:00 Icebreaker/Dinner
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Preparation of virtual boxes |
| Mo 21.2. |
Python & Obspy Introduction (Barsch)
- Python data types
- IPython
- standard modules
- online resources
- built-in methods of ObsPy data types
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ObsPy Exercise (Megies)
- different ways to read/fetch data/metadata
- basic signal processing steps
- exercises (instrument simulation, magnitude estimation,..)
- Introduction & Exercise
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| Di 22.2 |
From elastic wave equations to the ADER-DG method (Pelties)
- elastic wave equation
- spatial discretization: grids and meshes
- numerical approximation with polynomials
- Riemann problem & numerical flux
- ADER time integration
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SeisSol2D (Pelties)
- workflow
- mesh file (meshing demonstration) & mesh partitioning
- parameter file
- output & post-processing
- how to compile and run SeisSol
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Bogner Night (ski movie) |
| Mi 23.2. |
Seissol practicals (Pelties)
- basin effects
- topography
- low velocity zone
- spherical Earth
- dynamic rupture
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Free afternoon |
|
| Do 24.2. |
Spectral element method (Fichtner)
- General introduction, overview of applicartions
- spectral element discretisation
- Practical: forward modelling (I/O)
- Special topics (dissipation, point sources, ABCs)
|
Spectral element method (Fichtner)
- Seismic waveform tomography
- Adjoint method
- Frechet kernel gallery
- Practical: sensitivtiy kernels
- Special topics: source inversion, time reversal imaging
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Special Bavarian dinner |
| Fr 25.2. |
Spectral element method (Fichtner)
- Gradient methods, nonlinear optimisation
- non-uniqueness, multiscale approach
- regularisation
- misfit functionals (what shall I measure?)
- Recent developments
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