CSEP Minutes 02-20-2019
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Jump to navigationJump to searchParticipants: D. Jackson, W. Savran, D. Rhoades, A. Michael, M. Werner and W. Marzocchi
- Use histograms as opposed to ECDF using some type of cumulative statistic.
- The K-S statistic provides biased values bc we are likely always going to be seeing largest differences at the greatest magnitudes, move to cumulative statistics.
- Could also start the test above magnitudes of interest with a significance of earthquake hazard.
- Imagine a hierarchy of tests that starts at a high-level and becomes more granular.
- Look into the discrepancy in the ECDF.
- Conditional magnitude test based on the observed number of events, this would involve some type of sampling based of the combined distribution.
- Spatial distribution is very important, could be important more so than the number-distribution of the forecast; from USGS perspective.
- What is interesting about UCERF3-ETAS:
- Spatial distribution is most important and the differentiator between UCERF3-ETAS and regular ETAS.
- Time-frame matters; most catalogs are computed for long times such that most catalogs are circular.
- The value of the model might be seen from the long-term behavior of the model.
- We could bin the models spatially and perform the N-test. We’d want to know how the models vary at the different between look-ahead times.
- Need effective ways of communicating CSEP tests with the public. Tests should be accompanied with meaningful figures. See figures from the USGS wrt spatial forecasts.
- Think about aggregate testing, for example, within Italy, people are interested in final outcomes. A powerful way is to use some sort of tool that David mentioned of plotting the time varying results.
- Look at the weather forecasting community.
