Cross-Polarization Modulation in Polarization-Multiplexed Systems
Improving QPE for Dual Polarization Hydrometeors Classified as Dry Snow
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Transcript of Improving QPE for Dual Polarization Hydrometeors Classified as Dry Snow
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Improving QPE for Dual Polarization Hydrometeors Classified as Dry Snow
Aaron ReynoldsWFO Buffalo
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All NWS radars have dual polarization capability.
Dual Pol Expectations:
Ability to determine Precip type. More info about intensity Drop/particle size
AND
Better Precipitation estimates...for RAIN
However...a NON-dual polarization equation is used for snow.
Introduction
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0.5 degrees
Freezing level
Radar samples “RAIN” Dual Pol Quantitative Precipitation Estimate
(QPE).
Introduction
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0.5 degrees
Freezing level
Radar samples “RAIN” Dual Pol Quantitative Precipitation Estimate
(QPE).
Radar samples “SNOW” Pre dual Pol Quantitative Precipitation
Estimate (QPE).
Introduction
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The Problem
•WFO CLE found:• High QPE bias
• Primarily cool season• Above freezing level
•Based on DP QPE only – would have led to issuance of flood warnings
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Non-Dual Pol QPE
The Problem
Before Dual Pol
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Non-Dual Pol QPE
Dual Pol QPE
The Problem
Before Dual Pol
After Dual Pol
Both show overestimates, but Dual Pol is MUCH worse (higher)
What happened?
1.04 in Youngstown
1.04 in, Youngstown
1.27 in, Lyndonville
1.27 in, Lyndonville
1.11 in, Chili
1.11 in, Chili
Overestimation of QPE!
Huge overestimation of QPE!
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Overestimate of QPE when the lowest radar slice samples above the melting layer (Cocks et al. 2012).
Radar classified areas above the melting layer as “dry snow’”.
Multiplied by 2.8 to derive QPE.
Hypothesis
Difference of Dual Pol QPE – Legacy QPE
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Station Selection13 gauges identified
Requirements:Knowledge of gauge type. Track record.Proper exposure.Record to hundredth of an inch. 10 -100 km range.
Mt. Morris, NY
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Finding Events.Event requirements:
Cold season months of October thru April.Of the 13 gauges identified.
Five gauges >= 0.10 for an event.
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Data Collection Dry snow
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Data Collection Dry snow
QPE
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Data Collection Dry snow
QPE
Gauge data.
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Data collectionBrief periods of missing, or anomalous data were common which required case by case judgment.
Data requirements: 90% of the hour had to be “Dry snow”.
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Quality control of data
Preliminary cases were further screened for accuracy, keeping in mind gauge limitations in certain environments.
Data quality requirements:Wind >= 4 m/s 9 gauges w/o shield. Heated tipping bucket issues.
Final check of data from cooperative observers and COCORAHs measurements.
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MethodologyCalculations A total of 383 hourly cases were identified, from 17 event days.
To calculate the dry snow coefficient we divided the dual-pol QPE by 2.8 to get a raw radar estimate.
This raw value was then compared to the actual gauge measurement, to calculate the ideal coefficient for that event.
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Results For all of the 383 cases, the average dry snow coefficient was 1.19.
This was calculated from the sum of all dual-pol QPE compared to the sum of measured precipitation.
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ResultsHourly Cases
DP Radar QPE using 2.8 dry snow coefficient[inches]
Legacy PPSE with dry snow coefficient removed [inches]
Measured Precipitation [inches]
Calculated Coefficient
383 30.29 10.82 12.90 1.19
QPE from Dual pol Radar compared with measured precipitation for dry snow.
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Results
Event Precipitation Type
Hourly Cases Calculated Coefficient
All Rain 129 1.42All Snow 53 1.53Mixed Events (all) 201 1.00
Results by precipitation type.
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ResultsSite Cases Distance
(km)Ideal Coefficient (calculated)
Close (<75 km) 119 1.0Far (>75 km) 264 1.3
Results by distance from radar.
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Preliminary Conclusions Buffalo research supports:
-2.8 coefficient is too high.
Errors in the HCC: -Mixed precipitation. -All rain/snow events 1.4 would probably be more representative.
How do we handle this? -Additional research from other locations. (Cleveland, New York,
Burlington, State College, Albany and Blacksburg). Results support Buffalo WFO initial finding!
-Cleveland 1.6-State College 1.2-Blacksburg 1.4-Albany 1.9-New York 1.5
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Additional Research Planned Field testing of RPG build-14 with the new coefficient began this winter at
selected offices. Results expected later this year. Any other comments or questions?