-
Notifications
You must be signed in to change notification settings - Fork 15
SeasonalPrLatRmse
double_ITCZ_sea_cycle: meridional structure of the amplitude of the mean seasonal cycle of PR in the eastern Pacific
Computes the meridional root mean square error (RMSE) of eastern Pacific (15°S-15°N) amplitude (standard deviation) of the mean annual cycle (zonal 150-90°W average) precipitation (PR) between model and observations (the time averaging creates a 12 months mean annual cycle time series from which the standard deviation is computed)
GPCPv2.3 1979-2018 (main)
20CRv2 1871-2012, CMAP 1979-2018, ERA-Interim 1979-2018, NCEP2 1979-2018
Niño3_LatExt
model and observations regridded toward a generic 1°x1° grid (using cdms esmf linear method)
- detrending (if applicable)
- mean annual cycle computation
- standard deviation computation
- regridding (if applicable)
- zonal average
- RMSE computation
monthly
mm/day
precipitation (PR)
The first level shows the diagnostic used to compute the metric and highlight the main differences between the model and the reference
Figure 1: bias in the meridional structure of the amplitude of the mean seasonal cycle of precipitation (PR) in the eastern Pacific (150-90°W averaged). The black and blue curves show respectively the reference and the model. The metric derived is the meridional RMSE between the model curve and the reference curve
The second level shows the broader picture to better understand the spatial pattern of the bias: the map of the amplitude of the mean seasonal cycle in the equatorial Pacific
Figure 2: bias of the amplitude of the mean seasonal cycle of precipitation (PR) in the equatorial Pacific. The left and right maps show respectively the reference and the model
The third level shows the meridional structure of the mean seasonal cycle in a Hovmöller diagram
Figure 3: meridional structure of the mean seasonal cycle of precipitation (PR) in the eastern Pacific (150-90°W averaged). The left and right maps show respectively the reference and the model