DYnamical and Microphysical Evolution of Convective Storms Thorwald Stein, Robin Hogan, John Nicol DYMECS
DYnamical and Microphysical Evolution of Convective Storms Thorwald Stein, Robin Hogan, John Nicol DYMECS.
Mar 28, 2015
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DYnamical and MicrophysicalEvolution of Convective Storms
Thorwald Stein,Robin Hogan, John Nicol
DYMECS
• MetOffice Nimrod data
• Rainfall radar images 1km res
• 5min interval• 1/32=0.03125
mm/hr
50
100
150
200
250
Rainfall [mm/hr] for 7 August 2010 06:10:00 Centered around the Chilbolton radar location
0.5 mm/hr
• Labelling algorithm• Threshold for
minimum rainfall• Threshold for
minimum feature size (4km2
)
50
100
150
200
2.0 mm/hr
• Labelling algorithm• Threshold for
minimum rainfall• Threshold for
minimum feature size (4km2
)
50
100
150
200
1.0 mm/hr
• Labelling algorithm• Threshold for
minimum rainfall• Threshold for
minimum feature size (4km2
)
50
100
150
200
1.0 mm/hr
• Keep label consistent between images (red)
• Register break ups (yellow)
• Highlight new storms (green)
• Store track (magenta) and lifetime
50
100
150
200
• Per storm, store:– Area– Azimuth– Range– [u,v]– Centroid– Bounding box– Et cetera...
• Local rainfall maxima within storm (core, cell) work in progress...
50
100
150
200
50
100
150
200
Following a long-lived storm
Processing tree (in minutes)
05:00 Nimrodrainfall dataproduced
10:00 Nimrod datafrom BADC nowat Chilbolton
10:30 Nimrod datacut to size on400x400km grid
0:00 Met Office Radar networkVolume scan11:00 Tracking done.
File with storm propsand labels produced.
11:30 New scanprocedure submittedto Chilbolton radar
Scan Scheduling
Scan Scheduling
Prioritize storms that are already beingtracked
Scan Scheduling
Prioritize storms that are already beingtracked
Scan Scheduling
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