Quality control for rainfall data
Project description
Provides methods for running QC frameworks.
NOTEBOOK DEMO AVAILABLE HERE
Please email tomkee@ceh.ac.uk if you have any questions.
Project To Do:
add flag descriptions
Use timestep str maker to the checks
Example use
Example 1. - Individual quality checks on single rain gauge
# Load two types of QC'ing modules from RainfallQC
from rainfallqc import gauge_checks, comparison_checks
# 1. Simple 1 gauge QC
# 1.1. Run 1 qc method for 1 gauge
intermittency_flag = gauge_checks.check_intermittency(data, rain_col="rain_mm")
# 1.2. Run 1 qc method for 1 gauge using in-built comparison dataset
wr_flags = comparison_checks.check_exceedance_of_rainfall_world_record(data, rain_col="rain_mm", time_res='hourly')
# 1.3. Run 1 qc method for 1 gauge using in-built comparison dataset and location of gauge
rx1day_flags = comparison_checks.check_annual_exceedance_etccdi_rx1day(data, rain_col="rain_mm", gauge_lon=1.0, gauge_lat=55.0)Example 2. - Individual quality checks on networks of rain gauges
# 2. Run neighbour/network checks on a subset of a rain gauge network
from rainfallqc import neighbourhood_checks
from rainfallqc.utils import data_readers
# 2.1. Read in GDSR gauge network metadata
gdsr_obj = data_readers.GDSRNetworkReader(path_to_gdsr_dir="./tests/data/GDSR/")
# 2.2. subset by max 10 gauges within 50 km and with at least 500 days of overlap
nearby_ids = list(
gdsr_obj.get_nearest_overlapping_neighbours_to_target(
target_id="DE_00310", distance_threshold=50, n_closest=10, min_overlap_days=500
)
)
nearby_ids.append(target_id)
nearby_data_paths = gdsr_obj.metadata.filter(pl.col("station_id").is_in(nearby_ids))["path"]
# 2.3. Load those nearest gauges from network metadata
gdsr_network = gdsr_obj.load_network_data(data_paths=nearby_data_paths)
# 2.4 Run a neighbourhood check (checking if suspiciously large rainfall values were seen in neighbours)
extreme_wet_flags = neighbourhood_checks.check_wet_neighbours(
gdsr_network,
target_gauge_col="rain_mm_DE_02483",
neighbouring_gauge_cols=gdsr_network.columns[1:], # exclude time
time_res="hourly",
wet_threshold=1.0, # threshold for rainfall intensity to be considered
min_n_neighbours=5, # number of neighbours needed for comparison
n_neighbours_ignored=0, # ignore no neighbours and include all
)Example 3. - Applying a framework of QC methods (e.g. IntenseQC)
# 3. Applying multiple QC methods in framework (e.g. IntenseQC)
from rainfallqc.qc_frameworks import apply_qc_framework
# 3.1. Decide which QC methods of IntenseQC will be run
qc_framework = "IntenseQC"
qc_methods_to_run = ["QC1", "QC8", "QC9", "QC10", "QC11", "QC12", "QC14", "QC15", "QC16"]
# 3.2 Decide which parameters for QC
qc_kwargs = {
"QC1": {"quantile": 5},
"QC14": {"wet_day_threshold": 1.0, "accumulation_multiplying_factor": 2.0},
"QC16": {
"neighbouring_gauge_cols": daily_gpcc_network.columns[2:],
"wet_threshold": 1.0,
"min_n_neighbours": 5,
"n_neighbours_ignored": 0,
},
# Shared defaults applied to all
"shared": {
"rain_col": "rain_mm_DE_02483",
"target_gauge_col": "rain_mm_DE_02483",
"gauge_lat": gpcc_metadata["latitude"],
"gauge_lon": gpcc_metadata["longitude"],
"time_res": "daily",
"data_resolution": 0.1,
},
}
# 3.3. Run QC methods on network data
qc_result = apply_qc_framework.run_qc_framework(
daily_gpcc_network, qc_framework=qc_framework, qc_methods_to_run=qc_methods_to_run, qc_kwargs=qc_kwargs
)Other examples
Also see example Jupyter Notebooks here: https://github.com/Thomasjkeel/RainfallQC-notebooks/tree/main
Documents
Free software: GNU General Public License v3
Documentation: https://rainfallqc.readthedocs.io.
Features
25 rainfall QC methods (all from IntenseQC)
editable parameters so you can tweak thresholds, streak or accumulation lengths, and distances to neighbouring gauges
Credits
Based on the IntenseQC: https://github.com/nclwater/intense-qc/tree/master
This package was created with Cookiecutter and the audreyr/cookiecutter-pypackage project template.
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