29-AUG-2001

SHOWEX LongEZ along-track averaged radar and laser data sets

Doug Vandemark
NASA/GSFC, Laboratory for Hydrospheric Processes
vandemark@gsfc.nasa.gov
(603) 862-0195; FAX (603) 862-0243

The files XXXX represent first-version processing of the radar and laser ocean surface data 
collected with the NOAA/FRD-LongEZ during SHOWEX.  See the following sites for background detail:
http://rows.wff.nasa.gov/dls.html  and http://www.mmm.ucar.edu/science/abl/showex/showex.html. 
The data sets covered under this processing include those of Nov. 1997, Nov. 1998, March 1999 and 
Nov. 1999 û all collected off Duck NC.  Latest version LongEZ NCP data sets used as input except for 
the 1997 set where a specialized *.rad data product was used.

DATA LOCATION:	???

PRODUCTS:	The processed output includes averaged radar cross section, laser-derived elevation 
and slope, and electromagnetic bias data.  These are accompanied with ancillary words containing 
related quality control variables and the number of samples used in the respective statistic û after 
conservative within-leg filtering.  A subset of environmental and book keeping words are also 
included.  These are averaged over the same segment and time and position information are given at 
the segment midpoint.  Some references on the products included here can be found in the following:
Vandemark, D., P. D. Mourad, T. L. Crawford, C. A. Vogel, J. Sun, S. A. Bailey and B. 
Chapron, Measured changes in ocean surface roughness due to atmospheric boundary layer rolls, J. 
Geophys. Res., 106(C3), 4639-4654, 2001.
Sun J. , D. Vandemark , L. Mahrt, D. Vickers, T. L. Crawford and C. A. Vogel,  Momentum 
transfer over the coastal zone, J. Geophys. Res.,  in press.
Vandemark, D. , T. Crawford, R. Dobosy, T. Elfouhaily and B. Chapron, 'Sea surface slope 
statistics from a low-altitude aircraft', Proceedings of IGARSS'99, 381-383, 1999.

AVERAGING LENGTH:	The file format includes a word indicating the approximate spatial length of 
the averaging segment used. For example *.5000m. indicates that a 5000 sample segment average was 
used.  At the nominal 50 m/s LongEZ ground speed this translates to that distance.

DATA AVAILABLILITY:	These data are available to any SHOWEX investigator upon request.  Because of 
the newness of the techniques and products I request that I be consulted before any publication is 
submitted.  Dissemination to outside parties is welcome but needs approval of the SHOWEX team.



DATA FORMAT:		The data are presently in SUN floating point binary, each record containing 
53 words. The data can be converted to ascii or other format upon special request.

; Environmental data
			mrg(00+0,sampctr)=ustr			; u* computed using straight eddy corr. 
			mrg(00+1,sampctr)=u10			; 10 m U assum neutral stability
			mrg(00+2,sampctr)=mean(dx.sst)-273.	; SST  degC
			mrg(00+3,sampctr)=mean(dx.airT)-273.	; AirT degC
	
; Radar data
			mrg(04+0,sampctr)=sig0			; Ka-band NRCS data (dB)
			mrg(04+1,sampctr)=std_sig0		; NRCS std. dev. (dB)
			mrg(04+2,sampctr)=pr			; Ka-band rcv. power level (dBm)
			mrg(04+3,sampctr)=ct_lo	; #samples in NRCS estimate (and in EMB_r)
			mrg(04+4,sampctr)=hi_lo	; Ratio(lin.) of rad_hi to lo voltage@lo=160
; Laser data 

			mrg(09+0,sampctr)=retn			; Avg # Laser retns per N xmitted
			mrg(09+1,sampctr)=wstat.z_cts		; # of samples in elev & 1Dalong slp 
stats 
			mrg(09+2,sampctr)=wstat.hs		; Laser-derived sig. wave height
			mrg(09+3:09+6,sampctr)=total(wstat.z_mom,1)/3. 	; Avg. of the 3 elev. 
moment arrays
			mrg(09+7:09+10,sampctr)=total(wstat.al_mom,1)/3.	; Along-trk 1Dslp, avg of 
3 mom. 
			mrg(09+11,sampctr)=wstat.slp2d_cts		; # of samples in 2D slp stats 
			mrg(09+12:09+15,sampctr)=wstat.slp2d_mom	;2d moment(tan(2dang))	;2Dslp 
moments
			;  [Note:mss_l2D = mom_0^2. + mom_1 = mean(tan(th)^2.)]
			mrg(09+16:09+19,sampctr)=wstat.ac13_mom	; 0.93 m cross-track slp moments
			mrg(09+20:09+23,sampctr)=wstat.ac23_mom	; 0.46 m cross-track slp moments
			mrg(09+24:09+27,sampctr)=wstat.slp2d10_mom	; 10 m 2D slope moments
; EM bias data

			mrg(37+0,sampctr)=emb_r			; EM bias Ka-band radar
			mrg(37+1,sampctr)=wstat.embs_1m		; EMB 2D slope, 1m
			mrg(37+2,sampctr)=wstat.embs_10m		; EMB 2D slope, 10m 
			mrg(37+3,sampctr)=wstat.embs_ct		; EMB 1D cross-track
			mrg(37+4,sampctr)=wstat.embs_at		; EMB 1D along-track

; Book keeping
			mrg(42+0,sampctr)=dte				; Date (yymmdd)
			mrg(42+1,sampctr)=dx(pts2avg/2).secday	; SecsOfDay
			mrg(42+2,sampctr)=dx(pts2avg/2).latitude	; GPS Lat.
			mrg(42+3,sampctr)=dx(pts2avg/2).longitude	; GPS Lon.
			mrg(42+4,sampctr)=dx(pts2avg/2).winddir	; Wind Dir wrt N
			mrg(42+5,sampctr)=dx(pts2avg/2).heading	; AC heading
			mrg(42+6,sampctr)=rng				; Mean altitude above MSL 
			mrg(42+7,sampctr)=stdev(dx.alt)		; RMS of GPS.alt
			mrg(42+8,sampctr)=stdev(dx.roll)		; RMS of AC roll 
		
	mrg(42+9,sampctr)=get_depth_duck(bmap,dx(pts2avg/2).longitude,dx(pts2avg/2).latitude)
		
	mrg(42+10,sampctr)=get_dist2sho(dx(pts2avg/2).longitude,dx(pts2avg/2).latitude)