Presentation is loading. Please wait.

Presentation is loading. Please wait.

G O D D A R D S P A C E F L I G H T C E N T E R Status of the HIWRAP and URAD Conical Scan Radars for Wind Measurements Gerald Heymsfield NASA/Goddard.

Published byRoderick Bell Modified over 8 years ago

Similar presentations

Presentation on theme: "G O D D A R D S P A C E F L I G H T C E N T E R Status of the HIWRAP and URAD Conical Scan Radars for Wind Measurements Gerald Heymsfield NASA/Goddard."— Presentation transcript:

1 G O D D A R D S P A C E F L I G H T C E N T E R Status of the HIWRAP and URAD Conical Scan Radars for Wind Measurements Gerald Heymsfield NASA/Goddard Space Flight Center (Gerald.Heymsfield@nasa.gov) L. Li, M. Vega / NASA/ GSFC J. Carswell / Remote Sensing Solutions, Inc. D. Schaubert, J. Creticos / Univ. Mass. W. Welch / Welch Mechanical Design

2 G O D D A R D S P A C E F L I G H T C E N T E R Current High-Altitude Capability Using X-band ER-2 Doppler Radar (EDOP) More than a decade of high-altitude Doppler measurements from ER-2 aircraft over tropical cyclones capturing events such as hot towers Two beams ->vertical motions, along-track winds -> very high resolution below aircraft -> but no horizontal wind vector

3 G O D D A R D S P A C E F L I G H T C E N T E R Why Conical Scan Radar? ->3D Winds in precipitation /cloudy regions - emphasis on horizontal winds ->Surface winds through scatterometry (QuikScat, IWRAP,..) Make both measurements with one radar Imaging Wind and Rain Airborne Profiler (IWRAP) (Esteban, Carswell..2005)

4 G O D D A R D S P A C E F L I G H T C E N T E R 4 Motivation for Radar on Global Hawk  Long-duration (~30 hours) & high-altitude (>18 km) capability. -> e.g, reaches E. Atlantic genesis region  Increased time sampling storm -> capture RI events, hot towers, etc.  Fill gaps in coverage from orbiting satellites (QuikScat, TRMM,..)

5 G O D D A R D S P A C E F L I G H T C E N T E R NASA Conical Scan Radars in Development High-Altitude Imaging Wind and Rain Profiler (HIWRAP) Ku, Ka-Band (14 and 35 GHz) NASA Instrument Incubator Program (IIP) Aircraft: WB-57, Global Hawk UAV Radar (URAD) X-Band (9.4 GHz) Goddard Space Flight Center IR&D Aircraft: ER-2, Global Hawk High-Altitude Imaging Wind and Rain Profiler (HIWRAP) Ku, Ka-Band (14 and 35 GHz) NASA Instrument Incubator Program (IIP) Aircraft: WB-57, Global Hawk UAV Radar (URAD) X-Band (9.4 GHz) Goddard Space Flight Center IR&D Aircraft: ER-2, Global Hawk

6 G O D D A R D S P A C E F L I G H T C E N T E R HIWRAP NASA technology development Low power solid-state transmitter,high altitude, power efficient digital receiver & processor NASA technology development Low power solid-state transmitter,high altitude, power efficient digital receiver & processor * 3D winds (grid point retrieval) and reflectivity *Two frequencies and two incidence angles to increase the number independent wind measurements

7 G O D D A R D S P A C E F L I G H T C E N T E R HIWRAP Measurement Concept Grid Point Analysis 3D grid covering conical scan region Radial wind measurements from fore and aft looks are used to calculate horizontal wind vector Two look angles and two frequencies

8 G O D D A R D S P A C E F L I G H T C E N T E R 8 HIWRAP Scanner Ka-band transceiver Ku-band transceiver Digital receiver IF/LO subsystem Dual-freq feeds Scan motor

9 G O D D A R D S P A C E F L I G H T C E N T E R 9 Ka-Band Transceiver Power Amplifiers Waveguide ports to antenna Heat pipe & heat sink for PAs Test Frame

10 G O D D A R D S P A C E F L I G H T C E N T E R 10 HIWRAP Development Plan Instrument Completion - Summer 2009 Test flights on NASA WB -57 high-altitude aircraft - Fall 2009 Reconfiguration and test flights for Global Hawk - early 2010 Possible NASA hurricane field experiment - Summer 2010

11 G O D D A R D S P A C E F L I G H T C E N T E R 11 WB-57 Test Flights WB-57 provides an excellent simulator for the Global Hawk operating environment HIWRAP will fly on WB57 for initial instrumental and measurement concept test HIWRAP in WB57 6-foot pallet

12 G O D D A R D S P A C E F L I G H T C E N T E R 12 HIWRAP in Global Hawk Integration plans and test flight plans are still evolving for 2010 Summer flights. HIWRAP & Radome

13 G O D D A R D S P A C E F L I G H T C E N T E R 13 URAD Measurement Concept  Earlier development than HIWRAP using conventional radar technology  Originally designed for Global Hawk but now may be used for EDOP replacement  Nadir capabilities of EDOP, plus a second conical/cross- track scanning beam  Hardware in integration stage and near completion X-Band, tube-based (TWT) transmitter, fully steerable antenna scan up to 35 degree elevation

14 G O D D A R D S P A C E F L I G H T C E N T E R 14 URAD Integration Concept for ER-2

15 G O D D A R D S P A C E F L I G H T C E N T E R 15 URAD Hardware IF/LO and digital receiver enclosure High peak power transmitter and the pressure enclosure (cover off ) Antenna/ positioner

16 G O D D A R D S P A C E F L I G H T C E N T E R 16 Summary  Working toward completion of flight ready HIWRAP and URAD by Summer 2009.  WB-57 HIWRAP flights planned for Fall 2009  Funding in discussion for HIWRAP Global Hawk integration, test flights, and hurricane field experiment in 2010  URAD targeted for EDOP replacement

17 G O D D A R D S P A C E F L I G H T C E N T E R

18 Outline Conical scan radar for 3D winds in cloud/precip regions & surface winds from high-altitude manned aircraft and UAS. High-Altitude Imaging Wind and Rain Airborne Profiler (HIWRAP) development status for Global Hawk UAV Radar (URAD) development status for ER-2.

Download ppt "G O D D A R D S P A C E F L I G H T C E N T E R Status of the HIWRAP and URAD Conical Scan Radars for Wind Measurements Gerald Heymsfield NASA/Goddard."

Similar presentations

First Flights of High-Altitude Imaging Wind and Rain Airborne Profiler (HIWRAP) During GRIP Lihua Li, Matt Mclinden, Martin Perrine, Lin Tian, Steve Guimond/

First Flights of High-Altitude Imaging Wind and Rain Airborne Profiler (HIWRAP) During GRIP Lihua Li, Matt Mclinden, Martin Perrine, Lin Tian, Steve Guimond/
Hurricane Imaging Radiometer (HIRAD)

Hurricane Imaging Radiometer (HIRAD)
Hurricane Wind Retrieval Algorithm Development for the Imaging Wind and Rain Airborne Profiler (IWRAP) MS Thesis Project Santhosh Vasudevan End of Semester.

Hurricane Wind Retrieval Algorithm Development for the Imaging Wind and Rain Airborne Profiler (IWRAP) MS Thesis Project Santhosh Vasudevan End of Semester.
Passive Microwave Rain Rate Remote Sensing Christopher D. Elvidge, Ph.D. NOAA-NESDIS National Geophysical Data Center E/GC2 325 Broadway, Boulder, Colorado.

Passive Microwave Rain Rate Remote Sensing Christopher D. Elvidge, Ph.D. NOAA-NESDIS National Geophysical Data Center E/GC2 325 Broadway, Boulder, Colorado.
Seminar, National Taiwan University, Taipei, 15 April 2011 Robert Houze University of Washington The tropical convective cloud population.

Seminar, National Taiwan University, Taipei, 15 April 2011 Robert Houze University of Washington The tropical convective cloud population.
Atmospheric structure from lidar and radar Jens Bösenberg 1.Motivation 2.Layer structure 3.Water vapour profiling 4.Turbulence structure 5.Cloud profiling.

Atmospheric structure from lidar and radar Jens Bösenberg 1.Motivation 2.Layer structure 3.Water vapour profiling 4.Turbulence structure 5.Cloud profiling.
On average TES exhibits a small positive bias in the middle and lower troposphere of less than 15% and a larger negative bias of up to 30% in the upper.

On average TES exhibits a small positive bias in the middle and lower troposphere of less than 15% and a larger negative bias of up to 30% in the upper.
Convective Clouds Lecture Sequence Basic convective cloud types

Convective Clouds Lecture Sequence Basic convective cloud types
Remote Sensing of Mesoscale Vortices in Hurricane Eyewalls Presented by: Chris Castellano Brian Cerruti Stephen Garbarino.

Remote Sensing of Mesoscale Vortices in Hurricane Eyewalls Presented by: Chris Castellano Brian Cerruti Stephen Garbarino.
Jan 28, 2008Symposium on Imaging Ground-based and Space- based Radar Precipitation Imaging V.Chandrasekar Colorado state University January 28, 2008.

Jan 28, 2008Symposium on Imaging Ground-based and Space- based Radar Precipitation Imaging V.Chandrasekar Colorado state University January 28, 2008.
Three-Dimensional Precipitation Structure of Tropical Cyclones AMS Hurricane and Tropical Meteorology Conference May 2nd, 2008 Deanna A. Hence and Robert.

Three-Dimensional Precipitation Structure of Tropical Cyclones AMS Hurricane and Tropical Meteorology Conference May 2nd, 2008 Deanna A. Hence and Robert.
The tropical convective cloud population Peking University Seminar, Beijing, 4 July 2011 Robert Houze University of Washington.

The tropical convective cloud population Peking University Seminar, Beijing, 4 July 2011 Robert Houze University of Washington.
1 16-18/5/2001 GPM Planning Workship Ka-band Radar for GPM: Issues Toshio Iguchi Communications Research Laboratory The Global Precipitation Mission Planning.

/5/2001 GPM Planning Workship Ka-band Radar for GPM: Issues Toshio Iguchi Communications Research Laboratory The Global Precipitation Mission Planning.
Science Mission Directorate NASA-GRIP Field Experiment Ramesh Kakar Weather Focus Area Leader TRMM, Aqua and GPM Program Scientist March 3,2010.

Science Mission Directorate NASA-GRIP Field Experiment Ramesh Kakar Weather Focus Area Leader TRMM, Aqua and GPM Program Scientist March 3,2010.
Spaceborne Weather Radar

Spaceborne Weather Radar
High-Altitude Imaging Wind and Rain Airborne Profiler (HIWRAP) Status Stephen Guimond U. MD/ESSIC Lin Tian Morgan State Univ. James Carswell Remote Sensing.

High-Altitude Imaging Wind and Rain Airborne Profiler (HIWRAP) Status Stephen Guimond U. MD/ESSIC Lin Tian Morgan State Univ. James Carswell Remote Sensing.
G O D D A R D S P A C E F L I G H T C E N T E R NASA High-Altitude Precipitation/Wind Radars for Hurricane Research Gerald Heymsfield NASA/Goddard Space.

G O D D A R D S P A C E F L I G H T C E N T E R NASA High-Altitude Precipitation/Wind Radars for Hurricane Research Gerald Heymsfield NASA/Goddard Space.
The NOAA Unmanned Aircraft Systems (UAS) Program: Status and Activities Gary Wick Robbie Hood, Program Director Sensing Hazards with Operational Unmanned.

The NOAA Unmanned Aircraft Systems (UAS) Program: Status and Activities Gary Wick Robbie Hood, Program Director Sensing Hazards with Operational Unmanned.
Interdepartmental Hurricane Conference Charleston, SC Tuesday, March 4, 2008 Hurricane and Severe Storm Sentinel (HS 3 ) Scott Braun (GSFC) Paul Newman.

Interdepartmental Hurricane Conference Charleston, SC Tuesday, March 4, 2008 Hurricane and Severe Storm Sentinel (HS 3 ) Scott Braun (GSFC) Paul Newman.
WMO/ITU Seminar Use of Radio Spectrum for Meteorology Earth Exploration-Satellite Service (EESS)- Active Spaceborne Remote Sensing and Operations Bryan.

WMO/ITU Seminar Use of Radio Spectrum for Meteorology Earth Exploration-Satellite Service (EESS)- Active Spaceborne Remote Sensing and Operations Bryan.

Similar presentations

Ads by Google