diff --git a/README.md b/README.md index b5ec5e7e217605d361a8ef5900c5dc9ba03a1141..2b75804332076e529590cd396fc7fe887d947113 100644 --- a/README.md +++ b/README.md @@ -19,10 +19,10 @@ The OBS application is currently being developed as a set of scripts (written in - (ii) standard plots for each synop station (with `produce_standard_plots_all_stations.sh` using `plot_quantiles_rankhist.py` and `sql` with `oadb_api`; see an example of such plot in Figure 1), and - (iii) summary rank histograms for all stations (`summary_rank_histograms_all_stations.sh` using `rank_histogram_summary_statistics.f95`, `plot_p_values_map.py`, `plot_rank_hist_sum_all_stations.py` and `sql` with `odb_api`; see examples of such plots in Figures 2 and 3). - Note, needed input includes: list of synop stations with geographical coordinates, modelled data at stations coordinates, pre-computed quantiles as a function of time of year and rank histogram bootstrap mean square deviation (MSD) values. - - ![Semantic description of image](FIGSEXAMPLES/destine_obs_synop_figs.jpg "Plots for 2 m air temperature ")*Plots for 2 m air temperature* + - ![Semantic description of image](FIGSEXAMPLES/destine_obs_synop_figs.jpg "Plots for 2 m air temperature ")*Plots for 2 metre air temperature (T2m) for period of 1 Jan - 31 Dec 2020: Figure 1 - Quantiles/ time series data (00, 06, 12, and 18 UTCs) and rank histogram (combination of 00, 06, 12, and 18 UTCs) for synop station 126736; Figure 2 - P-values for T2m quantiles; Figure 3 - Rank histogram summary statistics: normalized p-value frequencies and normalized quantile frequencies* # Part TEMP (radiosounding observations) -1. `main_synop.sh` - main bash-script to run Apps for observational data for radiosounding. +1. `main_radsound.sh` - main bash-script to run Apps for observational data for radiosounding. 2. `gsv_mod_data.sh` - bash-script to run pre-processing (using `cdo` operators) of modelled data extracted with gsv interface over global domain for air temperature at 2 metre and at 850 hPa pressure level into hourly time-slices and saving (temporary) to separate hourly nc-files. 3. `radsound_obs.sh` - bash-script to run reading and extraction (using `sql` with `odb_api` software) of above-mentioned air temperatures at hourly time-slices for radiosounding observations at surface and at altitude at geographical (latitude, longitude, pressure level) locations of radiosounding stations over selected geographical domain (or over the globe) and saving (temporary) to dat-file. 4. `radsound_mod.sh` - bash-script to run reading, extraction and interpolation (using polytope) of modelled data for air temperature at surface and at altitude at the same hourly time-slices to geographical (latitude, longitude, pressure level) locations of radiosounding stations, and saving (temporary) to dat-file, and adding (using `import` with `odb_api`) such data to ODB. @@ -30,9 +30,9 @@ The OBS application is currently being developed as a set of scripts (written in 6. `radsound_stats.sh` - bash-script to run (addtional `bash`, `fortran`, `python` scripts) calculating/producing: ... # Part AMSU-A (satellite observations) -... +... (coming soon) ... -# Disclaimers +# Disclaimer The OBS package is in a developement phase by the University of Helsinki team, led by Heikki Järvinen (heikki.j.jarvinen@helsinki.fi). The team includes also Jouni Räisänen (jouni.raisanen@helsinki.fi), Lauri Tuppi (lauri.tuppi@helsinki.fi), Madeleine Ekblom (madeleine.ekblom@helsinki.fi), and Alexander Mahura (alexander.mahura@helsinki.fi). Some features are still not implemented and you may expect bugs. For feedback and issue reporting, feel free to open an issue in: https://earth.bsc.es/gitlab/digital-twins/de_340/obs/-/issues # Support