National Weather Association 31 st Annual Meeting 18 October 2006 Cleveland, Ohio Kevin Scharfenberg University of Oklahoma Cooperative Institute for Mesoscale.

Slides:

Advertisements

Similar presentations

Report of the Q2 Short Range QPF Discussion Group Jon Ahlquist Curtis Marshall John McGinley - lead Dan Petersen D. J. Seo Jean Vieux.

Advertisements

Calibration of GOES-R ABI cloud products and TRMM/GPM observations to ground-based radar rainfall estimates for the MRMS system – Status and future plans.

Terry Schuur Weather Radar Research Meteorological Observations in Support of Dual Polarization Research.

Page 1 Operational use of dual- polarisation: lessons learned at Météo France after 8 years of experience at all wavelengths (S / C / X) P. Tabary Météo.

21 September th Southwest Hydrometeorology Symposium, Tucson, AZ Future QPE: Dual-Pol and Gap-Filler Radars Kevin Scharfenberg University of Oklahoma/CIMMS.

Clear air echoes (few small insects) -12 dBZ. Echoes in clear air from insects Common is summer. Watch for echoes to expand area as sun sets and insects.

The Influence of Basin Size on Effective Flash Flood Guidance

DUAL-POLARIZATION OF WSR-88D NETWORK

Radar-Derived Rainfall Estimation Presented by D.-J. Seo 1 Hydrologic Science and Modeling Branch Hydrology Laboratory National Weather Service Presented.

The WSR-88D at the National Severe Storms Laboratory, KOUN, was upgraded to add polarization diversity in KOUN transmits each EM pulse with an orientation.

Rainfall Monitioring Using Dual-polarization Radars Alexander Ryzhkov National Severe Storms Laboratory / University of Oklahoma, USA.

New Concepts in Utilization of Polarimetric Weather Radars Alexander Ryzhkov (CIMMS) February 25–27, 2015 National Weather Center Norman, Oklahoma.

REALTIME FORECASTING OF SHALLOW LANDSLIDES USING RADAR-DERIVED RAINFALL Ryohei Misumi, Masayuki Maki, Koyuru Iwanami, Ken-ichi Maruyama and Sang-Goon Park.

WHAT IS Z?  Radar reflectivity (dBZ)  Microwave energy reflects off objects (e.g. hydrometeors) and the return is reflectivity WHAT IS R?  Rainfall.

Surveillance Weather Radar 2000 AD. Weather Radar Technology- Merits in Chronological Order WSR-57 WSR-88D WSR-07PD.

Basic RADAR Principles Prof. Sandra Cruz-Pol, Ph.D. Electrical and Computer Engineering UPRM.

Aaron Reynolds WFO Buffalo.  All NWS radars have dual polarization capability.  Dual Pol Expectations:  Ability to determine Precip type.  More info.

September 2005WSN05, Toulouse, France Applications of the McGill Algorithm for Precipitation Nowcasing Using Semi- Lagrangian Extrapolation (MAPLE) within.

March 14, 2006Intl FFF Workshop, Costa Rica Weather Decision Technologies, Inc. Hydro-Meteorological Decision Support System Bill Conway, Vice President.

NEXRAD Dual-Polarization Product Review Kevin Scharfenberg OU-CIMMS and NOAA-NSSL 2 nd Workshop on NWS Severe Weather Warning Technology July 2007.

Integration of Multiple Precipitation Estimates for Flash Flood Forecasting Reggina Cabrera NOAA/National Weather Service.

Comparison of PPS and QPE Rainfall Estimates for Summer 2013 Heavy Precipitation Events Comparison of PPS and QPE Rainfall Estimates for Summer 2013 Heavy.

Similar in concept to JDOP, except with the goal to operationally demonstrate the value of the polarimetric upgrade of the 88D. Multi-seasonal to study.

Ensemble Numerical Prediction of the 4 May 2007 Greensburg, Kansas Tornadic Supercell using EnKF Radar Data Assimilation Dr. Daniel T. Dawson II NRC Postdoc,

Forecasting in a Changing Climate Harold E. Brooks NOAA/National Severe Storms Laboratory (Thanks to Andy Dean, Dave Stensrud, Tara Jensen, J J Gourley,

Dan Satterfield, Chief Meteorologist WHNT-TV, Huntsville James-Paul Dice Meteorologist WHNT-TV Walt Peterson Senior Atmospheric Scientist UAH We Really.

WSR-88D Dual Polarization Initial Operational Capabilities WSR-88D Dual Polarization Initial Operational Capabilities 25th AMS Conference on International.

NOAA’s National Weather Service Flood and Flash Flood Warning Program Michelle Schmidt Western Region Hydrology and Climate Services Division.

Hydrometeorology and Polarimetric Radar How can Polarimetric radar aid in flash flood forecasting? James J. Stagliano, Jr.1, James L. Alford 1, Dean Nelson.

CARPE-DIEM 13/6/02, slide 1German Aerospace Center Microwaves and Radar Institute CARPE-DIEM Besprechung Helsinki, June 2004 Ewan.

National Weather Service Dual-Polarization Radar Technology Photo courtesy of NSSL.

Dual-Polarization Operations Assessment Status Update on Development Process Progress on RDA work Progress on RPG work Where we are with Beta and Deployment.

Dual-Pol Radar Data: A Brief Primer and A Few Brief Pseudo-Operational Exercises (Courtesy of) Dan Miller Science and Operations Officer NWS/WFO Duluth,

Advanced Nowcasting Capabilities Richard L. Carpenter, Jr., Ph.D., CCM Weather Decision Technologies, Inc. MDSS Stakeholder Meeting – October 2005, Boulder,

The Role of Polarimetric Radar for Validating Cloud Models Robert Cifelli 1, Timothy Lang 1, Stephen Nesbitt 1, S.A. Rutledge 1 S. Lang 2, and W.K. Tao.

National Lab for Remote Sensing and Nowcasting Dual Polarization Radar and Rainfall Nowcasting by Mark Alliksaar.

Correlation Coefficient (CC)

Assimilating Reflectivity Observations of Convective Storms into Convection-Permitting NWP Models David Dowell 1, Chris Snyder 2, Bill Skamarock 2 1 Cooperative.

NWS St. Louis Decision Support Workshop Watch, Warning, and Advisory Products and Criteria.

Weather Predicting Weather forecasting is a prediction of what the weather will be like in an hour, tomorrow, or next week. Weather forecasting involves.

Flash Flood Monitoring and Prediction (FFMP) John Ferree Warning Decision Training Branch Norman, OK John Ferree Warning Decision Training Branch Norman,

Edward Mansell National Severe Storms Laboratory Donald MacGorman and Conrad Ziegler National Severe Storms Laboratory, Norman, OK Funding sources in the.

Automated Flash Flood Forecasting Systems ¿Fact or Fantasy? International Workshop on Flash Flood Forecasting San Jose, Costa Rica, March 2006 Session.

What to make of this new radar technology Luke Madaus, UW Atmospheric Sciences 11/2/2011.

Aaron Reynolds WFO Buffalo

Quantitative Precipitation Estimation by WSR-88D Radar Dan Berkowitz Applications Branch Radar Operations Center.

WSR-88D Radar Rainfall Estimation Present and Near Future Daniel S. Berkowitz Applications Branch NWS Radar Operations Center Norman, Oklahoma 1.

Radar Palet e Home Dual Polarized Analysis & Diagnosis 1 Dual Polarized Radar What is polarimetric radar Polarimetric products Uses of these ‘raw’ outputs.

Spatial Verification Methods for Ensemble Forecasts of Low-Level Rotation in Supercells Patrick S. Skinner 1, Louis J. Wicker 1, Dustan M. Wheatley 1,2,

Travis Smith Hazardous Weather Forecasts & Warnings Nowcasting Applications.

Alexander Ryzhkov Weather Radar Research Meteorological Applications of Dual-polarization Radar.

National Weather Association 31 st Annual Meeting 17 October 2006 Cleveland, Ohio Kevin Scharfenberg University of Oklahoma Cooperative Institute for Mesoscale.

Radar Requirements David J. Stensrud NOAA/National Severe Storms Laboratory 2013 Warn-on-Forecast Workshop and Technical Guidance Meetings.

Mark Ratzer February 26 th, 2011 WFO Chicago 2 nd Annual Aviation Weather Workshop.

Brian Freitag 1 Udaysankar Nair 1 Yuling Wu – University of Alabama in Huntsville.

ENVI 412 Hydrologic Losses and Radar Measurement Dr. Philip B. Bedient Rice University.

Eye-tracking during the Forecaster Warning Decision Process: A Pilot Experiment Katie Bowden OU CIMMS/School of Meteorology, Ph.D. Student Pam Heinselman.

Meteorologické radary Polarimetrická měření Milan Šálek

DUAL-POLARIZATION RADAR UPGRADE Emergency Manager Workshop Feb Chad Entremont.

11 Short-Range QPF for Flash Flood Prediction and Small Basin Forecasts Prediction Forecasts David Kitzmiller, Yu Zhang, Wanru Wu, Shaorong Wu, Feng Ding.

Radar Interpretation Chad Entremont National Weather Service Jackson, MS.

Estimating Rainfall in Arizona - A Brief Overview of the WSR-88D Precipitation Processing Subsystem Jonathan J. Gourley National Severe Storms Laboratory.

Travis Smith U. Of Oklahoma & National Severe Storms Laboratory Severe Convection and Climate Workshop 14 Mar 2013 The Multi-Year Reanalysis of Remotely.

A dual-polarization QPE method based on the NCAR Particle ID algorithm Description and preliminary results Michael J. Dixon1, J. W. Wilson1, T. M. Weckwerth1,

Radar Observation of Severe Weather

Severe Weather in Egypt near Alexandria

TOWARDS HIGH-RESOLUTION GLOBAL SATELLITE PRECIPITATION ESTIMATION

Finnish Meteorological Institute

National Weather Service Missouri Basin River Forecast Center Mid-West Electric Consumers Association Annual Meeting Water & Power Panel 11 December.

Presentation transcript:

National Weather Association 31 st Annual Meeting 18 October 2006 Cleveland, Ohio Kevin Scharfenberg University of Oklahoma Cooperative Institute for Mesoscale Meteorological Studies and NOAA/National Severe Storms Laboratory, Norman, OK Kevin Scharfenberg University of Oklahoma Cooperative Institute for Mesoscale Meteorological Studies and NOAA/National Severe Storms Laboratory, Norman, OK Dual-pol Radar in Operational Forecasting: an overview Dual-pol Radar in Operational Forecasting: an overview

National Weather Association 31 st Annual Meeting 18 October 2006 Cleveland, Ohio Dual-pol Review Fewer flash flood warning false alarms Reliable hail detection High resolution precip typing in winter storms Much cleaner data displays Fewer flash flood warning false alarms Reliable hail detection High resolution precip typing in winter storms Much cleaner data displays

National Weather Association 31 st Annual Meeting 18 October 2006 Cleveland, Ohio Dual-pol Review Pre-processor algorithm Hydrometeor classification algorithm Rain accumulation algorithms – Biggest improvements in heavy rain, near radar Pre-processor algorithm Hydrometeor classification algorithm Rain accumulation algorithms – Biggest improvements in heavy rain, near radar

National Weather Association 31 st Annual Meeting 18 October 2006 Cleveland, Ohio Precip. Estimation Just as there are empirical relationships between rainfall rate & (horizontal) reflectivity… Just as there are empirical relationships between rainfall rate & (horizontal) reflectivity… R(Z h ) R = (0.171 Z h ) 0.714

National Weather Association 31 st Annual Meeting 18 October 2006 Cleveland, Ohio Precip. Estimation Just as there are empirical relationships between rainfall rate and reflectivity… …there are also empirical relationships between rainfall rate and dual-pol variables R(K DP ) R(Z h ) R = (0.171 Z h ) R = 44 |K DP | sign(K DP )

National Weather Association 31 st Annual Meeting 18 October 2006 Cleveland, Ohio Rainfall Estimation Dual-pol rainfall estimators provide the most improvement in heavy rain (hail?) –Use R(K DP ) in heavy rain –Use R(K DP, Z DR ) in moderate rain –Use R(Z h, Z DR ) in light rain We call it the “synthetic” dual-pol QPE algorithm Dual-pol rainfall estimators provide the most improvement in heavy rain (hail?) –Use R(K DP ) in heavy rain –Use R(K DP, Z DR ) in moderate rain –Use R(Z h, Z DR ) in light rain We call it the “synthetic” dual-pol QPE algorithm

National Weather Association 31 st Annual Meeting 18 October 2006 Cleveland, Ohio Rainfall Estimation Dual-pol rainfall estimators provide the most improvement near the radar –Use R(synthetic) within 120 km –Use R(K DP ) from km range –Use R(Z h ) beyond 200 km We call it the “combined” dual-pol QPE algorithm Dual-pol rainfall estimators provide the most improvement near the radar –Use R(synthetic) within 120 km –Use R(K DP ) from km range –Use R(Z h ) beyond 200 km We call it the “combined” dual-pol QPE algorithm

National Weather Association 31 st Annual Meeting 18 October 2006 Cleveland, Ohio Case Study 14 May 2003 – very early morning “Training” high-precip. supercell storms Flash flood guidance: – 2.6 inches in 1 hours – 3.0 inches in 3 hours – 3.8 inches in 6 hours 14 May 2003 – very early morning “Training” high-precip. supercell storms Flash flood guidance: – 2.6 inches in 1 hours – 3.0 inches in 3 hours – 3.8 inches in 6 hours

National Weather Association 31 st Annual Meeting 18 October 2006 Cleveland, Ohio Case Study Potential flash flood warning? Potential flash flood warning?

National Weather Association 31 st Annual Meeting 18 October 2006 Cleveland, Ohio Case Study Potential flash flood warning? Potential flash flood warning? R(Z h ) Z=300R 1.4

National Weather Association 31 st Annual Meeting 18 October 2006 Cleveland, Ohio Case Study Potential flash flood warning? Dual-pol combined Potential flash flood warning? Potential flash flood warning? Dual-pol combined

National Weather Association 31 st Annual Meeting 18 October 2006 Cleveland, Ohio Case Study Decision: No flash flood warning issued Result: No significant flash flooding was reported Decision: No flash flood warning issued Result: No significant flash flooding was reported

National Weather Association 31 st Annual Meeting 18 October 2006 Cleveland, Ohio Conclusions Major improvement in this case due to hail contamination in R(Z) product Dual-pol also helps with: – Bright-band contamination – Attenuation and partial beam blockage – Filtering out non-precipitation echoes Most of the improvement is near the radar – All algorithms perform poorly beyond 200 km Major improvement in this case due to hail contamination in R(Z) product Dual-pol also helps with: – Bright-band contamination – Attenuation and partial beam blockage – Filtering out non-precipitation echoes Most of the improvement is near the radar – All algorithms perform poorly beyond 200 km

National Weather Association 31 st Annual Meeting 18 October 2006 Cleveland, Ohio Discussion Dual-pol algorithms are still in their infancy 100s of potential rainfall algorithms – Multiple radar 3D merger of base data – Add in more hydrometeor classification info. – Integrate with other data sources and run precip. estimation ensembles! Little work so far on snow accumulation estimation! Dual-pol algorithms are still in their infancy 100s of potential rainfall algorithms – Multiple radar 3D merger of base data – Add in more hydrometeor classification info. – Integrate with other data sources and run precip. estimation ensembles! Little work so far on snow accumulation estimation!

National Weather Association 31 st Annual Meeting 18 October 2006 Cleveland, Ohio Questions? Questions? Thank you for listening!