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Update on Hybrid Detection DWL Study* G. D. Emmitt WG on Space-based Lidar Winds Oxnard, CA 7-9 February, 2001 *funded by the IPO.

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Presentation on theme: "Update on Hybrid Detection DWL Study* G. D. Emmitt WG on Space-based Lidar Winds Oxnard, CA 7-9 February, 2001 *funded by the IPO."— Presentation transcript:

1 Update on Hybrid Detection DWL Study* G. D. Emmitt WG on Space-based Lidar Winds Oxnard, CA 7-9 February, 2001 *funded by the IPO

2 Study Team Bruce Gentry (GSFC) Upendra Singh (LaRC) Michael Kavaya (LaRC) Gary Spiers (JPL) Bob Menzies (JPL) Dave Emmitt (SWA) PI

3 Outline Importance of global wind observations –OSE and OSSE results –Current wind observing systems Accuracy, coverage and resolution Role for Doppler wind lidars –Direct detection –Coherent detection

4 Primary Current Wind Observing Systems Rawinsondes (~ 1-3 m/s) Surface stations (~1 m/s) ACARS (~1 m/s) Scatterometer (~2 m/s) Cloud motion (5-7 m/s) Water vapor motion (4 -5m/s) Assimilating model’s first guess (~2-3 m/s)

5 Potential new wind observing systems Constant level balloons with dropsondes or DWLs UAVs for targeted observations Higher resolution water vapor winds (GIFTS) GPS soundings…derived winds

6 Data Utility Most global wind information results from assimilating direct (t,q.u,v…) observations into numerical models 4DVAR data assimilation becoming common All observations must “compete” with other observations and model derived “first guesses” Consequently the NWP community favors accuracy over coverage if trade is necessary Spatial averaging <.1-.5 the model resolution (not necessarily the grid size) ~ 15 - 25 km averaging for today’s global research models

7 Direct Detection Photon counting –spectral bins or channels –edge filter Broad molecular velocity spectrum Narrow aerosol velocity spectrum Instrument measurement accuracy is a function of #photons

8 Coherent Detection Heterodyne…frequency shift detection Aerosol (and cloud particle) motions Inherently accurate ( 2-5 dB Data coverage is a function of threshold sensitivity (`10-30 coherent photons)

9 Baseline Systems Each concept is considered as SOA and is held to 250 watts for the laser subsystems and flown in a 400 km orbit Non-scanning (for ease of comparison) with an along track product resolution of 200 km LOSP  Direct = 2.43 m/s at 3.5 km AGL LOSP  Coherent =.15 m/s at 3.5 km AGL  (90) for coherent system = 1.4 E-9 m -1 sr -1

10 Target Data Product An LOSP with a normally distributed error of  = 1 m/s Horizontal resolution: 100 X 100 km Vertical resolution: 1 km (worst case) Minimum swath width: 1300 km (50% coverage of equatorial band) Useful data product obtained 90% of time from 3-4 km layer when intervening cloud fraction is < 50%

11 Scaled Rayleigh System ORBITEAPPWR Baseline6.2.25 KW 400 KM2474 (400X)25 KW* 833 km6630 (1060X)67 KW* * assumes a 2 meter telescope

12 Scaled Coherent System ORBITEAPPWR Baseline2.4.25KW 400 km49 (20X)1.2 KW* 833 km118(49X)3.0 KW* * assumes a 1 meter telescope

13 Hybrid System Data Products (400 km orbit) Sub-systemResolutionSoundings*LOSP  (km) (#) (m/s) Rayleigh 300 266 1.6 Coherent 100 1864.71** * number of LOS soundings per orbit (may involve shot accumulation per sounding) **  (90) = 5.4 E-8 (6.8 E-8) m -1 sr -1

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