Operational Weather Radar Featuring WSR88 D Doppler Radar

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Operational Weather Radar Featuring: WSR-88 D Doppler Radar Transmission Power – 750, 000 W

Operational Weather Radar Featuring: WSR-88 D Doppler Radar Transmission Power – 750, 000 W Gain – 35, 481 Beam Width <2º @ 125 nmi Pulse Length - 0. 47 or 1. 35 km Transmission Time – 1. 57 of 4. 5 μs

DOWs measure record high wind speeds of 301 +/- 20 mph (135 +/- 10

DOWs measure record high wind speeds of 301 +/- 20 mph (135 +/- 10 m/s) in 03 May 1999 Oklahoma City tornado.

Abstract Sensors WSR 88 – standard weather service radar 158 Operational Sites Across the

Abstract Sensors WSR 88 – standard weather service radar 158 Operational Sites Across the Country Common Radar Bands: K, Ku, C, X, Ka λ=1 -10 cm, 1 -10 x size of particles (rain ice) of interest Makes use of Rayleigh Scattering Phased Array Radar Algorithms Radar Equation Attenuation

Brief Weather Radar History ~1950: RADAR discovered RADAR: RAdio Detection And Ranging In early

Brief Weather Radar History ~1950: RADAR discovered RADAR: RAdio Detection And Ranging In early use, WWII military operators picked up on what they thought was noise Really environmental returns, only noise if you want to see airplanes 1950 -1980: Continued development of reflectivity radar 1980 -2000: Invention and implementation of Doppler radar As of 1988 the US started using 10 cm wavelength radars (WSR-88 D) as their standard radar device for radar networks 2000 -present: Dual Polarization Radar and Phased Array Radar

source: http: //www. cocorahs. org/media/docs/radar_basics. pdf

source: http: //www. cocorahs. org/media/docs/radar_basics. pdf

source: http: //www. cocorahs. org/media/docs/radar_basics. pdf

source: http: //www. cocorahs. org/media/docs/radar_basics. pdf

Introduction Key concepts Doppler effect Rayleigh scattering Sensing the return Reflectivity, dbz Vertical cross

Introduction Key concepts Doppler effect Rayleigh scattering Sensing the return Reflectivity, dbz Vertical cross section Range Height Indication Scan Constant Azimuth Improvement with WSR-88 D Volume Scanning Vary azimuth along with elevation Optimally interpolate 3 d volume or reflectance

Radar, Doppler and Raleigh Radar Equation Whn transmiter and reciever are in the same

Radar, Doppler and Raleigh Radar Equation Whn transmiter and reciever are in the same place, signal decreases in power to the fourth power Doppler Equation Where F’ = observed frequency, F = emitted frequency, v = velocity in medium, vs = velocity of source Raleigh Scattering EM radiation returned from a field with average particle size smaller than the wavelength of the radiation

Reflectivity off a target Power of the return signal - reflectivity (z) z has

Reflectivity off a target Power of the return signal - reflectivity (z) z has the units mm^6/m^3 density of water droplets which would return the reflectivity emissivity is implicit To cover a large range it is often described in decibels Intensity of the return echo helps determine the precipitation rate significant precipitation usually is above 15 d. Bz Reported reflectivity is an average of at least 25 pulses from a given azimuth and elevation

Applications Nowcast/ short term forecast Easily deployed in remote locations useful for extreme weather

Applications Nowcast/ short term forecast Easily deployed in remote locations useful for extreme weather Lee Rotors Precipitation Estimation Links to related topics RUCOOL Codar Maps Radar Altimetry Police Radar Small Aircraft Detection Benefits from radial movement of parts

Radar Bands and Uses 2 -4 S GHz, 7. 5 -15 cm. Sirius and

Radar Bands and Uses 2 -4 S GHz, 7. 5 -15 cm. Sirius and XM radio. Long range weather, marine weather, ATC 4 -8 Ghz - C band – satellite transponders, satellite TV, raw satellite communications, weather. 18 -27 Ghz - K - police, small drizzle/fog research 27 -40 Ghz Ka – police 8 -12 Ghz - X – airport radar – very long range, missile guidance

Making a Signal The “listen” time (millisecond) is 1000 x the pulse duration This

Making a Signal The “listen” time (millisecond) is 1000 x the pulse duration This allows the radar an opportunity to be able to receive the signal again without interference from previous signals Must wait until signal has reached maximum range and returned. Knowing exact pulse travel time allows for calculation of the horizontal distance to the target Intensity of the return, or backscatter -> target size Radial Target Motion -> Doppler shift

What happens to the returned signal? Must orient the returns (power at certain frequencies)

What happens to the returned signal? Must orient the returns (power at certain frequencies) into an accurate measure of precipitation Measurements over a spherical volume are sliced up into horizontally and vertically to produce 2, 3 and 4 d visualizations Account for ambient background noise

Source: http: //cimms. ou. edu/rvamb/Documents/Report_7. pdf

Source: http: //cimms. ou. edu/rvamb/Documents/Report_7. pdf

Algorithms VIL HAIL Estimates presence and size of hailstones Potential Wind Gusts Vertically Integrated

Algorithms VIL HAIL Estimates presence and size of hailstones Potential Wind Gusts Vertically Integrated Liquid Uses VIL, cloud top height Estimates the winds under the cloud (ie downdraft) Doppler measurement readily reveals wind shear storm relative velocity Mesocyclone Detection Algorithm Tornado Detection Algorithm Wind Shear Detection (low level)

Products Base reflectivity Composite Reflectivity Scans from all elevations, imaging precipitation intensity and storm

Products Base reflectivity Composite Reflectivity Scans from all elevations, imaging precipitation intensity and storm structure Base Velocity how much precipitation is falling precipitation type assess a storm's structure and dimension radial wind field, speed of fronts/strong wind range of 140 mi Storm relative motion Track a circulation (show up well in doppler return) over time to determine storm motion. Removing the storm relative motion from base radials gives an estimate of the flow with respect to the storm.

“Complications” Migrating Birds Insects Aircraft, solid buildings, large aerosols for air traffic controller –

“Complications” Migrating Birds Insects Aircraft, solid buildings, large aerosols for air traffic controller – rain for meteorologist – airplanes. Identification of snow, and snow type, modification of observed matter before hitting the ground (fallstreaks) big enough sample of precip for identification? In precip estimates – Z-R relationship

Phased Array Radar Proven NAVY technology Multiple beams with variable dwell times scan continuously

Phased Array Radar Proven NAVY technology Multiple beams with variable dwell times scan continuously perform full volume scan every 20 -30 s track cooperative aircraft track non-cooperative aircraft perform medium dwell scan on heavy cumuliform convection perform long dwell scan on area of suspected tornadic development. Expected that tornado warning could in to to 45 min

In Closing Take precipitation rates with caution Highly accurate under most conditions Misleading in

In Closing Take precipitation rates with caution Highly accurate under most conditions Misleading in cases of extreme precipitation The ultimate in nowcast and high resolution spatial time series for precipitation. Extremely useful in adaptive forecasting of extreme weather events