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The second milestone in this work package will take special care to avoid the problem of a collapsing ensemble when reinitializing ensemble members.
Overdue by 6 year(s)•Due by March 30, 2020The first milestone will implement a particle filter without any special handling with respect to the probability density function. It is therefore expected that the ensemble will gradually collapse into only a few uncorrelated samples.
Overdue by 6 year(s)•Due by September 29, 2019Milestone C will extend the simulator to utilize the GPU efficiently through OpenCL.
Overdue by 7 year(s)•Due by December 30, 2018The second milestone will move from Monte Carlo to multi-level Monte Carlo to sample the probability density function of our uncertain input parameters.
Overdue by 7 year(s)•Due by June 29, 2018The second milestone will extend the first prototype to also support transport of icebergs, including air and water side drag and Coriolis force. This will be performed by extending the ocean circulation model with a new component.
Overdue by 8 year(s)•Due by December 29, 2017The second milestone will verify and validate the simulator against know test cases and existing codes to ensure validity of results.
Overdue by 8 year(s)•Due by September 29, 2017The first milestone in this work package will use classical Monte Carlo sampling to generate a set of ensemble members. This prototype will then represent the first fully integrated simulation system with uncertainty quantification.
Overdue by 8 year(s)•Due by June 29, 2017The first milestone will use a passive Lagrangian particle model to represent e.g., a floating object. This prototype will be verified and validated against existing simulations to ensure validity of results.
Overdue by 9 year(s)•Due by December 29, 2016•0/4 issues closedThe first milestone will create a simulator (simplified ocean model) based on existing one-layer codes, but extended to two layers.
Overdue by 9 year(s)•Due by September 29, 2016•5/10 issues closed