;---- ; ; This program reads the accompanying CAVE version of the SARB/CRS ; file and outputs all data for each footprint. ; A list of all CRS variables is made at the bottom of this program. ; It is suggested that one looks over the list, decides which variables ; are required, then modify this program to extract only those variables ; desired. ; ; First set the desired input file as shown below on line 35, eg. ; ; fn='larc_COV_200105_crs.e2b' ; ; ASCII Output is in: data.out ; ;---- Pro readcrs ;-------------- ; Input arrays ;-------------- nv = 515 data = fltarr(nv,7500) datin = fltarr(nv) lab = strarr(nv) key = strarr(100) fn = ' ' ;--- ; Variable Definition ;--- label,lab,key,nv ;--- ; Set file name and Read in data ;--- fn = 'TERRA/BSRN/bsrn_LAU_200103_crs.e2b' Openu,1,fn ifp = 0 While not EOF(1) do begin Readu,1,datin data(0:nv-1,ifp) = datin(0:nv-1) ifp=ifp+1 endwhile ;--- close,1 print,ifp Openw,2,'data.out' printf,2,'For file: ','fn printf,2,'number of footprints within 25km (TERRA), 10km(TRMM) of surface site - ','ifp printf,2,' ' printf,2,'Acronym key for labels' printf,2,'------------------------------------------' for i=0,61 do begin printf,2,strtrim(key(i),1) endfor for i = 0,ifp-1 do begin printf,2,format="(/a25,i4,a14)",'--------------Footprint #',i,'--------------' for j=0,nv-1 do begin printf,2,format="(f16.6,1x,a1,a3,1x,a40)",data(j,i),strtrim(lab(j,0:2),1) Endfor Endfor Close,2 End pro label,lab,key,nv lab = strarr(nv,3) key = strarr(100) ; #no. is the identifier in the ; SSF and CRS CERES Data Product Catalogs ; at asd-www.larc.nasa.gov/ceres/docs.html ; \/ ; \/ lab( 0,0:2) = ['#','1','julian day'] lab( 1,0:2) = ['#','1','fraction julian day'] lab( 2,0:2) = ['#','2','sat radius from earth center (km)'] lab( 3,0:2) = ['#','3','x vel (km/sec)'] lab( 4,0:2) = ['#','4','y vel (km/sec)'] lab( 5,0:2) = ['#','5','z vel (km/sec)'] lab( 6,0:2) = ['#','6','sat colatitude (deg)'] lab( 7,0:2) = ['#','7','sat longitude (deg)'] lab( 8,0:2) = ['#','8','sun colatitude (deg)'] lab( 9,0:2) = ['#','9','sun longitude (deg)'] lab( 10,0:2) = ['#','10','sfc colatitude (deg)'] lab( 11,0:2) = ['#','11','sfc longitude (deg)'] lab( 12,0:2) = ['#','12','sample no. (1-660)'] lab( 13,0:2) = ['#','13','packet no. (-)'] lab( 14,0:2) = ['#','14','cone ang (deg)'] lab( 15,0:2) = ['#','15','clock ang (deg)'] lab( 16,0:2) = ['#','16','cone ang rate (deg/sec)'] lab( 17,0:2) = ['#','17','clock ang rate (deg/sec)'] lab( 18,0:2) = ['#','18','along track ang from ground (deg)'] lab( 19,0:2) = ['#','19','cross track ang from ground (deg)'] lab( 20,0:2) = ['#','20','viewing zenith ang (deg)'] lab( 21,0:2) = ['#','21','solar zenith ang (deg)'] lab( 22,0:2) = ['#','22','rel azimuth wrt clock ang (deg)'] lab( 23,0:2) = ['#','23','viewing azimuth ang wrt north (deg)'] lab( 24,0:2) = ['#','24','sfc alt (m)'] lab( 25,0:2) = ['#','25','1st IGBP scene type in fp (-)'] lab( 26,0:2) = ['#','25','2nd IGBP scene type in fp (-)'] lab( 27,0:2) = ['#','25','3rd IGBP scene type in fp (-)'] lab( 28,0:2) = ['#','25','4th IGBP scene type in fp (-)'] lab( 29,0:2) = ['#','25','5th IGBP scene type in fp (-)'] lab( 30,0:2) = ['#','25','6th IGBP scene type in fp (-)'] lab( 31,0:2) = ['#','25','7th IGBP scene type in fp (-)'] lab( 32,0:2) = ['#','25','8th IGBP scene type in fp (-)'] lab( 33,0:2) = ['#','26','% of 1st scene type in fp (-)'] lab( 34,0:2) = ['#','26','% of 2nd scene type in fp (-)'] lab( 35,0:2) = ['#','26','% of 3rd scene type in fp (-)'] lab( 36,0:2) = ['#','26','% of 4th scene type in fp (-)'] lab( 37,0:2) = ['#','26','% of 5th scene type in fp (-)'] lab( 38,0:2) = ['#','26','% of 6th scene type in fp (-)'] lab( 39,0:2) = ['#','26','% of 7th scene type in fp (-)'] lab( 40,0:2) = ['#','26','% of 8th scene type in fp (-)'] lab( 41,0:2) = ['#','27','SW ADM type (1-5000) (-)'] lab( 42,0:2) = ['#','28','LW ADM type (1-5000) (-)'] lab( 43,0:2) = ['#','29','WN ADM type (1-5000) (-)'] lab( 44,0:2) = ['#','30','CRH Alb Threshhold Snow (%)'] lab( 45,0:2) = ['#','31','Tot Channel Rad (W/m2/str)'] lab( 46,0:2) = ['#','32','SW Channel Rad (W/m2/str)'] lab( 47,0:2) = ['#','33','WN Channel Rad (W/m2/str/mc)'] lab( 48,0:2) = ['#','34','quality flag (-)'] lab( 49,0:2) = ['#','35','SW Rad (W/m2/str)'] lab( 50,0:2) = ['#','36','LW Rad (W/m2/str)'] lab( 51,0:2) = ['#','37','WN Rad (W/m2/str/mc)'] lab( 52,0:2) = ['#','38','SW Flux (W/m2)'] lab( 53,0:2) = ['#','39','LW Flux (W/m2)'] lab( 54,0:2) = ['#','40','WN Flux (W/m2/micron)'] lab( 55,0:2) = ['#','41','Mod-A Dn SW at Sfc (W/m2)'] lab( 56,0:2) = ['#','42','Mod-A Dn LW at Sfc (W/m2)'] lab( 57,0:2) = ['#','43','Mod-A Dn Wn at Sfc (W/m2/mc)'] lab( 58,0:2) = ['#','44','Mod-A Net SW at Sfc (W/m2)'] lab( 59,0:2) = ['#','45','Mod-A Net LW at Sfc (W/m2)'] lab( 60,0:2) = ['#','46','Mod-B Dn SW at Sfc (W/m2)'] lab( 61,0:2) = ['#','47','Mod-B Dn LW at Sfc (W/m2)'] lab( 62,0:2) = ['#','48','Mod-B Net SW at Sfc (W/m2)'] lab( 63,0:2) = ['#','49','Mod-B Net LW at sfc (W/m2)'] lab( 64,0:2) = ['#','50','IGBP based Sfc alb (-)'] lab( 65,0:2) = ['#','51','IGBP based Sfc emiss (-)'] lab( 66,0:2) = ['#','52','IGBP based Sfc WN emiss (-)'] lab( 67,0:2) = ['#','53','No. of pixels within fp (-)'] lab( 68,0:2) = ['#','54','% Coverage of fp by imager (-)'] lab( 69,0:2) = ['#','55','Mean pixel viewing zenith ang (deg)'] lab( 70,0:2) = ['#','56','Mean pixel rel azimuth ang (deg)'] lab( 71,0:2) = ['#','57','Mean Sfc Wind U vel (m/s)'] lab( 72,0:2) = ['#','58','Mean Sfc Wind V vel (m/s)'] lab( 73,0:2) = ['#','59','Mean Sfc Skin Temp (K)'] lab( 74,0:2) = ['#','60','Mean Col Avg RH (%)'] lab( 75,0:2) = ['#','61','Mean PW (cm)'] lab( 76,0:2) = ['#','62','PW source flag (-)'] lab( 77,0:2) = ['#','63','Extrapolation over Cld area? (-)'] lab( 78,0:2) = ['#','64','General procedure notes (-)'] lab( 79,0:2) = ['#','65','Cld Algorithm notes (-)'] lab( 80,0:2) = ['#','66','% Clr at subpixel resolution (-)'] lab( 81,0:2) = ['#','67','% Strong Clr (-)'] lab( 82,0:2) = ['#','68','% Weak Clr (-)'] lab( 83,0:2) = ['#','69','% Snow/Ice Coverage (-)'] lab( 84,0:2) = ['#','70','% Aer B coverage (-)'] lab( 85,0:2) = ['#','71','Aer B Type (-)'] lab( 86,0:2) = ['#','72','% coverage supplement (-)'] lab( 87,0:2) = ['#','73','Total Aer OD A vis (-)'] lab( 88,0:2) = ['#','74','Total Aer OD A NearIR (-)'] lab( 89,0:2) = ['#','75','Aer A supplement 1 (-)'] lab( 90,0:2) = ['#','76','Aer A supplement 2 (-)'] lab( 91,0:2) = ['#','77','Aer A supplement 3 (-)'] lab( 92,0:2) = ['#','78','Aer A supplement 4 (-)'] lab( 93,0:2) = ['#','79','Imager based skin temp (K)'] lab( 94,0:2) = ['#','80','Vertical temp change (K)'] lab( 95,0:2) = ['#','81','Cld ovr conditions (-)'] lab( 96,0:2) = ['#','81','Cld ovr conditions (-)'] lab( 97,0:2) = ['#','81','Cld ovr conditions (-)'] lab( 98,0:2) = ['#','81','Cld ovr conditions (-)'] lab( 99,0:2) = ['#','82','Cld layer notes (-)'] lab(100,0:2) = ['#','82','Cld layer notes (-)'] lab(101,0:2) = ['#','83','Mean Cld OD Cld Lev 1 (-)'] lab(102,0:2) = ['#','83','Mean Cld OD Cld Lev 2 (-)'] lab(103,0:2) = ['#','84','Std Cld OD Cld Lev 1 (-)'] lab(104,0:2) = ['#','84','Std Cld OD Cld Lev 2 (-)'] lab(105,0:2) = ['#','85','Mean Log Cld OD Cld Lev 1 (-)'] lab(106,0:2) = ['#','85','Mean Log Cld OD Cld Lev 2 (-)'] lab(107,0:2) = ['#','86','Std Log Cld OD Cld Lev 1 (-)'] lab(108,0:2) = ['#','86','Std Log Cld OD Cld Lev 2 (-)'] lab(109,0:2) = ['#','87','Mean Cld emiss (-)'] lab(110,0:2) = ['#','87','Mean Cld emiss (-)'] lab(111,0:2) = ['#','88','Std Cld emiss (-)'] lab(112,0:2) = ['#','88','Std Cld emiss (-)'] lab(113,0:2) = ['#','89','Mean Cld liq wat path (-)'] lab(114,0:2) = ['#','89','Mean Cld liq wat path (-)'] lab(115,0:2) = ['#','90','Std Cld liq wat path (-)'] lab(116,0:2) = ['#','90','Std Cld liq wat path (-)'] lab(117,0:2) = ['#','91','Mean Cld ice wat path (-)'] lab(118,0:2) = ['#','91','Mean Cld ice wat path (-)'] lab(119,0:2) = ['#','92','Std Cld ice wat path (-)'] lab(120,0:2) = ['#','92','Std Cld ice wat path (-)'] lab(121,0:2) = ['#','93','Mean Cld top Prs (hPa)'] lab(122,0:2) = ['#','93','Mean Cld top Prs (hPa)'] lab(123,0:2) = ['#','94','Std Cld top Prs (hPa)'] lab(124,0:2) = ['#','94','Std Cld top Prs (hPa)'] lab(125,0:2) = ['#','95','Mean Cld eff emitting Prs (hPa)'] lab(126,0:2) = ['#','95','Mean Cld eff emitting Prs (hPa)'] lab(127,0:2) = ['#','96','Std Cld eff emitting Prs (hPa)'] lab(128,0:2) = ['#','96','Std Cld eff emitting Prs (hPa)'] lab(129,0:2) = ['#','97','Mean Cld eff emitting temp (K)'] lab(130,0:2) = ['#','97','Mean Cld eff emitting temp (K)'] lab(131,0:2) = ['#','98','Std Cld eff emitting temp (K)'] lab(132,0:2) = ['#','98','Std Cld eff emitting temp (K)'] lab(133,0:2) = ['#','99','Mean Cld eff emitting hgt (m)'] lab(134,0:2) = ['#','99','Mean Cld eff emitting hgt (m)'] lab(135,0:2) = ['#','100','Std Cld eff emitting hgt (m)'] lab(136,0:2) = ['#','100','Std Cld eff emitting hgt (m)'] lab(137,0:2) = ['#','101','Mean Cld bottom Prs (hPa)'] lab(138,0:2) = ['#','101','Mean Cld bottom Prs (hPa)'] lab(139,0:2) = ['#','102','Std Cld bottom Prs (hPa)'] lab(140,0:2) = ['#','102','Std Cld bottom Prs (hPa)'] lab(141,0:2) = ['#','103','Mean Cld wat droplet radius (mc)'] lab(142,0:2) = ['#','103','Mean Cld wat droplet radius (mc)'] lab(143,0:2) = ['#','104','Std Cld wat droplet radius (mc)'] lab(144,0:2) = ['#','104','Std Cld wat droplet radius (mc)'] lab(145,0:2) = ['#','105','Mean Cld ice crystal dia (mc)'] lab(146,0:2) = ['#','105','Mean Cld ice crystal dia (mc)'] lab(147,0:2) = ['#','106','Std Cld ice crystal dia (mc)'] lab(148,0:2) = ['#','106','Std Cld ice crystal dia (mc)'] lab(149,0:2) = ['#','107','Mean Cld phase'] lab(150,0:2) = ['#','107','Mean Cld phase'] lab(151,0:2) = ['#','108','Mean 1.6 mc wat drop radius (mc)'] lab(152,0:2) = ['#','108','Mean 1.6 mc wat drop radius (mc)'] lab(153,0:2) = ['#','109','Mean 1.6 mc ice crystal dia (mc)'] lab(154,0:2) = ['#','109','Mean 1.6 mc ice crystal dia (mc)'] lab(155,0:2) = ['#','110','Mean 1.6 mc phase (-)'] lab(156,0:2) = ['#','110','Mean 1.6 mcr phase (-)'] lab(157,0:2) = ['#','111','Mean Cld aspect ratio (-)'] lab(158,0:2) = ['#','111','Mean Cld aspect ratio (-)'] lab(159,0:2) = ['#','112','Std Cld aspect ratio (-)'] lab(160,0:2) = ['#','112','Std Cld aspect ratio (-)'] lab(161,0:2) = ['#','113','Cld OD %tile, lay 1 (-)'] lab(162,0:2) = ['#','113','Cld OD %tile, lay 1 (-)'] lab(163,0:2) = ['#','113','Cld OD %tile, lay 1 (-)'] lab(164,0:2) = ['#','113','Cld OD %tile, lay 1 (-)'] lab(165,0:2) = ['#','113','Cld OD %tile, lay 1 (-)'] lab(166,0:2) = ['#','113','Cld OD %tile, lay 1 (-)'] lab(167,0:2) = ['#','113','Cld OD %tile, lay 1 (-)'] lab(168,0:2) = ['#','113','Cld OD %tile, lay 1 (-)'] lab(169,0:2) = ['#','113','Cld OD %tile, lay 1 (-)'] lab(170,0:2) = ['#','113','Cld OD %tile, lay 1 (-)'] lab(171,0:2) = ['#','113','Cld OD %tile, lay 1 (-)'] lab(172,0:2) = ['#','113','Cld OD %tile, lay 1 (-)'] lab(173,0:2) = ['#','113','Cld OD %tile, lay 1 (-)'] lab(174,0:2) = ['#','113','Cld OD %tile, lay 2 (-)'] lab(175,0:2) = ['#','113','Cld OD %tile, lay 2 (-)'] lab(176,0:2) = ['#','113','Cld OD %tile, lay 2 (-)'] lab(177,0:2) = ['#','113','Cld OD %tile, lay 2 (-)'] lab(178,0:2) = ['#','113','Cld OD %tile, lay 2 (-)'] lab(179,0:2) = ['#','113','Cld OD %tile, lay 2 (-)'] lab(180,0:2) = ['#','113','Cld OD %tile, lay 2 (-)'] lab(181,0:2) = ['#','113','Cld OD %tile, lay 2 (-)'] lab(182,0:2) = ['#','113','Cld OD %tile, lay 2 (-)'] lab(183,0:2) = ['#','113','Cld OD %tile, lay 2 (-)'] lab(184,0:2) = ['#','113','Cld OD %tile, lay 2 (-)'] lab(185,0:2) = ['#','113','Cld OD %tile, lay 2 (-)'] lab(186,0:2) = ['#','113','Cld OD %tile, lay 2 (-)'] lab(187,0:2) = ['#','114','Cld IR emiss %tile, lay 1 (-)'] lab(188,0:2) = ['#','114','Cld IR emiss %tile, lay 1 (-)'] lab(189,0:2) = ['#','114','Cld IR emiss %tile, lay 1 (-)'] lab(190,0:2) = ['#','114','Cld IR emiss %tile, lay 1 (-)'] lab(191,0:2) = ['#','114','Cld IR emiss %tile, lay 1 (-)'] lab(192,0:2) = ['#','114','Cld IR emiss %tile, lay 1 (-)'] lab(193,0:2) = ['#','114','Cld IR emiss %tile, lay 1 (-)'] lab(194,0:2) = ['#','114','Cld IR emiss %tile, lay 1 (-)'] lab(195,0:2) = ['#','114','Cld IR emiss %tile, lay 1 (-)'] lab(196,0:2) = ['#','114','Cld IR emiss %tile, lay 1 (-)'] lab(197,0:2) = ['#','114','Cld IR emiss %tile, lay 1 (-)'] lab(198,0:2) = ['#','114','Cld IR emiss %tile, lay 1 (-)'] lab(199,0:2) = ['#','114','Cld IR emiss %tile, lay 1 (-)'] lab(200,0:2) = ['#','114','Cld IR emiss %tile, lay 2 (-)'] lab(201,0:2) = ['#','114','Cld IR emiss %tile, lay 2 (-)'] lab(202,0:2) = ['#','114','Cld IR emiss %tile, lay 2 (-)'] lab(203,0:2) = ['#','114','Cld IR emiss %tile, lay 2 (-)'] lab(204,0:2) = ['#','114','Cld IR emiss %tile, lay 2 (-)'] lab(205,0:2) = ['#','114','Cld IR emiss %tile, lay 2 (-)'] lab(206,0:2) = ['#','114','Cld IR emiss %tile, lay 2 (-)'] lab(207,0:2) = ['#','114','Cld IR emiss %tile, lay 2 (-)'] lab(208,0:2) = ['#','114','Cld IR emiss %tile, lay 2 (-)'] lab(209,0:2) = ['#','114','Cld IR emiss %tile, lay 2 (-)'] lab(210,0:2) = ['#','114','Cld IR emiss %tile, lay 2 (-)'] lab(211,0:2) = ['#','114','Cld IR emiss %tile, lay 2 (-)'] lab(212,0:2) = ['#','114','Cld IR emiss %tile, lay 2 (-)'] lab(213,0:2) = ['#','115','channel central rad (W/m2/str)'] lab(214,0:2) = ['#','115','channel central rad (W/m2/str)'] lab(215,0:2) = ['#','115','channel central rad (W/m2/str)'] lab(216,0:2) = ['#','115','channel central rad (W/m2/str)'] lab(217,0:2) = ['#','115','channel central rad (W/m2/str)'] lab(218,0:2) = ['#','116','% subpixel clr coverage (-)'] lab(219,0:2) = ['#','117','% subpixel cld coverage (-)'] lab(220,0:2) = ['#','118','Mean rad over Clr area (W/m2/str)'] lab(221,0:2) = ['#','118','Mean rad over clr area (W/m2/str)'] lab(222,0:2) = ['#','118','Mean rad over clr area (W/m2/str)'] lab(223,0:2) = ['#','118','Mean rad over clr area (W/m2/str)'] lab(224,0:2) = ['#','118','Mean rad over clr area (W/m2/str)'] lab(225,0:2) = ['#','119','Std rad over clr area (W/m2/str)'] lab(226,0:2) = ['#','119','Std rad over clr area (W/m2/str)'] lab(227,0:2) = ['#','119','Std rad over clr area (W/m2/str)'] lab(228,0:2) = ['#','119','Std rad over clr area (W/m2/str)'] lab(229,0:2) = ['#','119','Std rad over clr area (W/m2/str)'] lab(230,0:2) = ['#','120','Mean rad over cld area (W/m2/str)'] lab(231,0:2) = ['#','120','Mean rad over cld area (W/m2/str)'] lab(232,0:2) = ['#','120','Mean rad over cld area (W/m2/str)'] lab(233,0:2) = ['#','120','Mean rad over cld area (W/m2/str)'] lab(234,0:2) = ['#','120','Mean rad over cld area (W/m2/str)'] lab(235,0:2) = ['#','121','Std rad over cld area (W/m2/str)'] lab(236,0:2) = ['#','121','Std rad over cld area (W/m2/str)'] lab(237,0:2) = ['#','121','Std rad over cld area (W/m2/str)'] lab(238,0:2) = ['#','121','Std rad over cld area (W/m2/str)'] lab(239,0:2) = ['#','121','Std rad over cld area (W/m2/str)'] lab(240,0:2) = ['#','122','Mean rad over fp (W/m2/str)'] lab(241,0:2) = ['#','122','Mean rad over fp (W/m2/str)'] lab(242,0:2) = ['#','122','Mean rad over fp (W/m2/str)'] lab(243,0:2) = ['#','122','Mean rad over fp (W/m2/str)'] lab(244,0:2) = ['#','122','Mean rad over fp (W/m2/str)'] lab(245,0:2) = ['#','123','Std rad over fp (W/m2/str)'] lab(246,0:2) = ['#','123','Std rad over fp (W/m2/str)'] lab(247,0:2) = ['#','123','Std rad over fp (W/m2/str)'] lab(248,0:2) = ['#','123','Std rad over fp (W/m2/str)'] lab(249,0:2) = ['#','123','Std rad over fp (W/m2/str)'] lab(250,0:2) = ['#','124','5th %tile of rad over fp'] lab(251,0:2) = ['#','124','5th %tile of rad over fp'] lab(252,0:2) = ['#','124','5th %tile of rad over fp'] lab(253,0:2) = ['#','124','5th %tile of rad over fp'] lab(254,0:2) = ['#','124','5th %tile of rad over fp'] lab(255,0:2) = ['#','125','95th %tile of rad over fp'] lab(256,0:2) = ['#','125','95th %tile of rad over fp'] lab(257,0:2) = ['#','125','95th %tile of rad over fp'] lab(258,0:2) = ['#','125','95th %tile of rad over fp'] lab(259,0:2) = ['#','125','95th %tile of rad over fp'] lab(260,0:2) = ['#','126','Mean rad cld lay 1 novr (W/m2/str)'] lab(261,0:2) = ['#','126','Mean rad cld lay 1 novr (W/m2/str)'] lab(262,0:2) = ['#','126','Mean rad cld lay 1 novr (W/m2/str)'] lab(263,0:2) = ['#','126','Mean rad cld lay 1 novr (W/m2/str)'] lab(264,0:2) = ['#','126','Mean rad cld lay 1 novr (W/m2/str)'] lab(265,0:2) = ['#','127','Std rad cld lay 1 novr (W/m2/str)'] lab(266,0:2) = ['#','127','Std rad cld lay 1 novr (W/m2/str)'] lab(267,0:2) = ['#','127','Std rad cld lay 1 novr (W/m2/str)'] lab(268,0:2) = ['#','127','Std rad cld lay 1 novr (W/m2/str)'] lab(269,0:2) = ['#','127','Std rad cld lay 1 novr (W/m2/str)'] lab(270,0:2) = ['#','128','Mean rad cld lay 2 novr (W/m2/str)'] lab(271,0:2) = ['#','128','Mean rad cld lay 2 novr (W/m2/str)'] lab(272,0:2) = ['#','128','Mean rad cld lay 2 novr (W/m2/str)'] lab(273,0:2) = ['#','128','Mean rad cld lay 2 novr (W/m2/str)'] lab(274,0:2) = ['#','128','Mean rad cld lay 2 novr (W/m2/str)'] lab(275,0:2) = ['#','129','Std rad cld lay 2 novr (W/m2/str)'] lab(276,0:2) = ['#','129','Std rad cld lay 2 novr (W/m2/str)'] lab(277,0:2) = ['#','129','Std rad cld lay 2 novr (W/m2/str)'] lab(278,0:2) = ['#','129','Std rad cld lay 2 novr (W/m2/str)'] lab(279,0:2) = ['#','129','Std rad cld lay 2 novr (W/m2/str)'] lab(280,0:2) = ['#','130','Mean rad cld lay 1&2 ovr (W/m2/str)'] lab(281,0:2) = ['#','130','Mean rad cld lay 1&2 ovr (W/m2/str)'] lab(282,0:2) = ['#','130','Mean rad cld lay 1&2 ovr (W/m2/str)'] lab(283,0:2) = ['#','130','Mean rad cld lay 1&2 ovr (W/m2/str)'] lab(284,0:2) = ['#','130','Mean rad cld lay 1&2 ovr (W/m2/str)'] lab(285,0:2) = ['#','131','Std rad cld lay 1&2 ovr (W/m2/str)'] lab(286,0:2) = ['#','131','Std rad cld lay 1&2 ovr (W/m2/str)'] lab(287,0:2) = ['#','131','Std rad cld lay 1&2 ovr (W/m2/str)'] lab(288,0:2) = ['#','131','Std rad cld lay 1&2 ovr (W/m2/str)'] lab(289,0:2) = ['#','131','Std rad cld lay 1&2 ovr (W/m2/str)'] lab(290,0:2) = ['spare to line up on 64 bit bound',' ',' '] ;----------------- ; Begin crs labels ;----------------- lab(291,0:2) = ['#','132','PAR (W/m2)'] lab(292,0:2) = ['#','133','Direct/Diffuse Ratio (-)'] lab(293,0:2) = ['#','134','Corrected initial sfc alb (-)'] lab(294,0:2) = ['#','135','Number of levels in profile (-)'] lab(295,0:2) = ['#','136','Prs of levels in profile (hPa)'] lab(296,0:2) = ['#','136','Prs of levels in profile (hPa)'] lab(297,0:2) = ['#','136','Prs of levels in profile (hPa)'] lab(298,0:2) = ['#','136','Prs of levels in profile (hPa)'] lab(299,0:2) = ['#','136','Prs of levels in profile (hPa)'] lab(300,0:2) = ['#','137','Tuned SW flux Up Prist sky (W/m2)'] lab(301,0:2) = ['#','137','Tuned SW flux Up Prist sky (W/m2)'] lab(302,0:2) = ['#','138','Tuned SW flux Dn Prist sky (W/m2)'] lab(303,0:2) = ['#','138','Tuned SW flux Dn Prist sky (W/m2)'] lab(304,0:2) = ['#','139','Tuned LW flux Up Prist sky (W/m2)'] lab(305,0:2) = ['#','139','Tuned LW flux Up Prist sky (W/m2)'] lab(306,0:2) = ['#','140','Tuned LW flux Dn Prist sky (W/m2)'] lab(307,0:2) = ['#','140','Tuned LW flux Dn Prist sky (W/m2)'] lab(308,0:2) = ['#','141','Tuned WN flux Up Prist sky (W/m2)'] lab(309,0:2) = ['#','141','Tuned WN flux Up Prist sky (W/m2)'] lab(310,0:2) = ['#','142','Tuned WN flux Dn Prist sky (W/m2)'] lab(311,0:2) = ['#','142','Tuned WN flux Dn Prist sky (W/m2)'] lab(312,0:2) = ['#','143','Tuned SW flux Up Clr sky (W/m2)'] lab(313,0:2) = ['#','143','Tuned SW flux Up Clr sky (W/m2)'] lab(314,0:2) = ['#','143','Tuned SW flux Up Clr sky (W/m2)'] lab(315,0:2) = ['#','143','Tuned SW flux Up Clr sky (W/m2)'] lab(316,0:2) = ['#','143','Tuned SW flux Up Clr sky (W/m2)'] lab(317,0:2) = ['#','144','Tuned SW flux Dn Clr sky (W/m2)'] lab(318,0:2) = ['#','144','Tuned SW flux Dn Clr sky (W/m2)'] lab(319,0:2) = ['#','144','Tuned SW flux Dn Clr sky (W/m2)'] lab(320,0:2) = ['#','144','Tuned SW flux Dn Clr sky (W/m2)'] lab(321,0:2) = ['#','144','Tuned SW flux Dn Clr sky (W/m2)'] lab(322,0:2) = ['#','145','Tuned LW flux Up Clr sky (W/m2)'] lab(323,0:2) = ['#','145','Tuned LW flux Up Clr sky (W/m2)'] lab(324,0:2) = ['#','145','Tuned LW flux Up Clr sky (W/m2)'] lab(325,0:2) = ['#','145','Tuned LW flux Up Clr sky (W/m2)'] lab(326,0:2) = ['#','145','Tuned LW flux Up Clr sky (W/m2)'] lab(327,0:2) = ['#','146','Tuned LW flux Dn Clr sky (W/m2)'] lab(328,0:2) = ['#','146','Tuned LW flux Dn Clr sky (W/m2)'] lab(329,0:2) = ['#','146','Tuned LW flux Dn Clr sky (W/m2)'] lab(330,0:2) = ['#','146','Tuned LW flux Dn Clr sky (W/m2)'] lab(331,0:2) = ['#','146','Tuned LW flux Dn Clr sky (W/m2)'] lab(332,0:2) = ['#','147','Tuned WN flux Up Clr sky (W/m2)'] lab(333,0:2) = ['#','147','Tuned WN flux Up Clr sky (W/m2)'] lab(334,0:2) = ['#','147','Tuned WN flux Up Clr sky (W/m2)'] lab(335,0:2) = ['#','147','Tuned WN flux Up Clr sky (W/m2)'] lab(336,0:2) = ['#','147','Tuned WN flux Up Clr sky (W/m2)'] lab(337,0:2) = ['#','148','Tuned WN flux Dn Clr sky (W/m2)'] lab(338,0:2) = ['#','148','Tuned WN flux Dn Clr sky (W/m2)'] lab(339,0:2) = ['#','148','Tuned WN flux Dn Clr sky (W/m2)'] lab(340,0:2) = ['#','148','Tuned WN flux Dn Clr sky (W/m2)'] lab(341,0:2) = ['#','148','Tuned WN flux Dn Clr sky (W/m2)'] lab(342,0:2) = ['#','149','Tuned SW flux Up Tot sky (W/m2)'] lab(343,0:2) = ['#','149','Tuned SW flux Up Tot sky (W/m2)'] lab(344,0:2) = ['#','149','Tuned SW flux Up Tot sky (W/m2)'] lab(345,0:2) = ['#','149','Tuned SW flux Up Tot sky (W/m2)'] lab(346,0:2) = ['#','149','Tuned SW flux Up Tot sky (W/m2)'] lab(347,0:2) = ['#','150','Tuned SW flux Dn Tot sky (W/m2)'] lab(348,0:2) = ['#','150','Tuned SW flux Dn Tot sky (W/m2)'] lab(349,0:2) = ['#','150','Tuned SW flux Dn Tot sky (W/m2)'] lab(350,0:2) = ['#','150','Tuned SW flux Dn Tot sky (W/m2)'] lab(351,0:2) = ['#','150','Tuned SW flux Dn Tot sky (W/m2)'] lab(352,0:2) = ['#','151','Tuned LW flux Up Tot sky (W/m2)'] lab(353,0:2) = ['#','151','Tuned LW flux Up Tot sky (W/m2)'] lab(354,0:2) = ['#','151','Tuned LW flux Up Tot sky (W/m2)'] lab(355,0:2) = ['#','151','Tuned LW flux Up Tot sky (W/m2)'] lab(356,0:2) = ['#','151','Tuned LW flux Up Tot sky (W/m2)'] lab(357,0:2) = ['#','152','Tuned LW flux Dn Tot sky (W/m2)'] lab(358,0:2) = ['#','152','Tuned LW flux Dn Tot sky (W/m2)'] lab(359,0:2) = ['#','152','Tuned LW flux Dn Tot sky (W/m2)'] lab(360,0:2) = ['#','152','Tuned LW flux Dn Tot sky (W/m2)'] lab(361,0:2) = ['#','152','Tuned LW flux Dn Tot sky (W/m2)'] lab(362,0:2) = ['#','153','Tuned WN flux Up Tot sky (W/m2)'] lab(363,0:2) = ['#','153','Tuned WN flux Up Tot sky (W/m2)'] lab(364,0:2) = ['#','153','Tuned WN flux Up Tot sky (W/m2)'] lab(365,0:2) = ['#','153','Tuned WN flux Up Tot sky (W/m2)'] lab(366,0:2) = ['#','153','Tuned WN flux Up Tot sky (W/m2)'] lab(367,0:2) = ['#','154','Tuned WN flux Dn Tot sky (W/m2)'] lab(368,0:2) = ['#','154','Tuned WN flux Dn Tot sky (W/m2)'] lab(369,0:2) = ['#','154','Tuned WN flux Dn Tot sky (W/m2)'] lab(370,0:2) = ['#','154','Tuned WN flux Dn Tot sky (W/m2)'] lab(371,0:2) = ['#','154','Tuned WN flux Dn Tot sky (W/m2)'] lab(372,0:2) = ['#','155','Adj SW flux Up Sfc Prist sky (W/m2)'] lab(373,0:2) = ['#','156','Adj SW flux Up TOA Prist sky (W/m2)'] lab(374,0:2) = ['#','157','Adj SW flux Dn Sfc Prist sky (W/m2)'] lab(375,0:2) = ['#','158','Adj LW flux Up Sfc Prist sky (W/m2)'] lab(376,0:2) = ['#','159','Adj LW flux Dn Sfc Prist sky (W/m2)'] lab(377,0:2) = ['#','160','Adj LW flux Up TOA Prist sky (W/m2)'] lab(378,0:2) = ['#','161','Adj WN flux Up Sfc Prist sky (W/m2)'] lab(379,0:2) = ['#','162','Adj WN flux Dn Sfc Prist sky (W/m2)'] lab(380,0:2) = ['#','163','Adj WN flux Up TOA Prist sky (W/m2)'] lab(381,0:2) = ['#','164','Adj SW flux Up Sfc Clr sky (W/m2)'] lab(382,0:2) = ['#','165','Adj SW flux Up TOA Clr sky (W/m2)'] lab(383,0:2) = ['#','166','Adj SW flux Dn Sfc Clr sky (W/m2)'] lab(384,0:2) = ['#','167','Adj LW flux Up Sfc Clr sky (W/m2)'] lab(385,0:2) = ['#','168','Adj LW flux Dn Sfc Clr sky (W/m2)'] lab(386,0:2) = ['#','169','Adj LW flux Up TOA Clr sky (W/m2)'] lab(387,0:2) = ['#','170','Adj WN flux Up Sfc Clr sky (W/m2)'] lab(388,0:2) = ['#','171','Adj WN flux Dn Sfc Clr sky (W/m2)'] lab(389,0:2) = ['#','172','Adj WN flux Up TOA Clr sky (W/m2)'] lab(390,0:2) = ['#','173','Adj SW flux Up Sfc Tot sky (W/m2)'] lab(391,0:2) = ['#','174','Adj SW flux Up TOA Tot sky (W/m2)'] lab(392,0:2) = ['#','175','Adj SW flux Dn Sfc Tot sky (W/m2)'] lab(393,0:2) = ['#','176','Adj LW flux Up Sfc Tot sky (W/m2)'] lab(394,0:2) = ['#','177','Adj LW flux Dn Sfc Tot sky (W/m2)'] lab(395,0:2) = ['#','178','Adj LW flux Up TOA Tot sky (W/m2)'] lab(396,0:2) = ['#','179','Adj WN flux Up Sfc Tot sky (W/m2)'] lab(397,0:2) = ['#','180','Adj WN flux Dn Sfc Tot sky (W/m2)'] lab(398,0:2) = ['#','181','Adj WN flux Up TOA Tot sky (W/m2)'] lab(399,0:2) = ['#','182','Mod WN filt rad TOA (W/m2/str)'] lab(400,0:2) = ['#','183','Adj Mod WN filt rad TOA (W/m2/str)'] lab(401,0:2) = ['#','184','WN flux, sat emu TOA (W/m2/str)'] lab(402,0:2) = ['#','185','Adj WN flux, sat emu TOA (W/m2/str)'] lab(403,0:2) = ['#','186','LW unfilt rad sat emu TOA(W/m2/str)'] lab(404,0:2) = ['#','187','Adj LW unfilt rad sat emu TOA'] lab(405,0:2) = ['#','188','Initial PW (cm)'] lab(406,0:2) = ['#','189','Adj to PW (cm)'] lab(407,0:2) = ['#','190','Initial upper trop PW (cm)'] lab(408,0:2) = ['#','191','Adj to upper trop PW (cm)'] lab(409,0:2) = ['#','192','Initial upper trop RH (%)'] lab(410,0:2) = ['#','193','Adj to upper trop RH (%)'] lab(411,0:2) = ['#','194','Adj to the Sfc alb (-)'] lab(412,0:2) = ['#','195','Initial Aer OD (-)'] lab(413,0:2) = ['#','196','Adj to the Aer OD (-)'] lab(414,0:2) = ['#','197','Initial skin temp (K)'] lab(415,0:2) = ['#','198','Adj to skin temp (K)'] lab(416,0:2) = ['#','199','Adj to vis OD mean (-)'] lab(417,0:2) = ['#','199','Adj to vis OD mean (-)'] lab(418,0:2) = ['#','200','Adj to cld fractional area mean (%)'] lab(419,0:2) = ['#','200','Adj to cld fractional area mean (%)'] lab(420,0:2) = ['#','201','Adj to cld eff temp mean (K)'] lab(421,0:2) = ['#','201','Adj to cld eff temp mean (K)'] lab(422,0:2) = ['#','202','Flag type,%,hgt for aer constit (-)'] lab(423,0:2) = ['#','202','Flag type,%,hgt for aer constit (-)'] lab(424,0:2) = ['#','202','Flag type,%,hgt for aer constit (-)'] lab(425,0:2) = ['#','202','Flag type,%,hgt for aer constit (-)'] lab(426,0:2) = ['#','202','Flag type,%,hgt for aer constit (-)'] lab(427,0:2) = ['#','202','Flag type,%,hgt for aer constit (-)'] lab(428,0:2) = ['#','202','Flag type,%,hgt for aer constit (-)'] lab(429,0:2) = ['#','203','Sfc alb and aer OD source flag (-)'] lab(430,0:2) = ['#','204','Number of tuning iterations (-)'] lab(431,0:2) = ['#','205','Constrainment status flag (-)'] lab(432,0:2) = ['#','206','Sigma table configuration flag (-)'] lab(433,0:2) = ['#','207','Tuned SW flux Up TOA CNA (W/m2)'] lab(434,0:2) = ['#','207','Tuned SW flux Up SFC CNA (W/m2)'] lab(435,0:2) = ['#','208','Tuned SW flux Dn TOA CNA (W/m2)'] lab(436,0:2) = ['#','208','Tuned SW flux Dn SFC CNA (W/m2)'] lab(437,0:2) = ['#','209','Tuned LW flux Up TOA CNA (W/m2)'] lab(438,0:2) = ['#','209','Tuned LW flux Up SFC CNA (W/m2)'] lab(439,0:2) = ['#','210','Tuned LW flux Dn TOA CNA (W/m2)'] lab(440,0:2) = ['#','210','Tuned LW flux Dn SFC CNA (W/m2)'] lab(441,0:2) = ['#','211','Tuned WN flux Up TOA CNA (W/m2)'] lab(442,0:2) = ['#','211','Tuned WN flux Up SFC CNA (W/m2)'] lab(443,0:2) = ['#','212','Tuned WN flux Dn TOA CNA (W/m2)'] lab(444,0:2) = ['#','212','Tuned WN flux Dn SFC CNA (W/m2)'] lab(445,0:2) = ['#','213','Adj SW flux Up Sfc CNA (W/m2)'] lab(446,0:2) = ['#','214','Adj SW flux Up TOA CNA (W/m2)'] lab(447,0:2) = ['#','215','Adj SW flux Dn Sfc CNA (W/m2)'] lab(448,0:2) = ['#','216','Adj LW flux Up Sfc CNA (W/m2)'] lab(449,0:2) = ['#','217','Adj LW flux Dn Sfc CNA (W/m2)'] lab(450,0:2) = ['#','218','Adj LW flux Up TOA CNA (W/m2)'] lab(451,0:2) = ['#','219','Adj WN flux Up Sfc CNA (W/m2)'] lab(452,0:2) = ['#','220','Adj WN flux Dn Sfc CNA (W/m2)'] lab(453,0:2) = ['#','221','Adj WN flux Up TOA CNA (W/m2)'] ;--- ; These values are derived variables from the CRS data and ; consequently not listed in CERES data product catalogs. ;--- lab(454,0:2) = ['#','Der','CAVE 15 minute index index for fp (-)'] lab(455,0:2) = ['#','Der','Local Time (Hour.Fraction-of-Hour)'] lab(456,0:2) = ['#','Der','fp distance from surface site (km)'] lab(457,0:2) = ['#','Der','Cld fraction for lay 1 (%)'] lab(458,0:2) = ['#','Der','Cld fraction for lay 2 (%)'] lab(459,0:2) = ['#','Der','Clr fraction of footprint (%)'] lab(460,0:2) = ['#','Der','Unt SW Up Flux sfc Prist (W/m2)'] lab(461,0:2) = ['#','Der','Unt SW Up Flux TOA Prist (W/m2)'] lab(462,0:2) = ['#','Der','Unt SW Dn Flux sfc Prist (W/m2)'] lab(463,0:2) = ['#','Der','Unt LW Up Flux sfc Prist (W/m2)'] lab(464,0:2) = ['#','Der','Unt LW Dn Flux sfc Prist (W/m2)'] lab(465,0:2) = ['#','Der','Unt LW Up Flux TOA Prist (W/m2)'] lab(466,0:2) = ['#','Der','Unt Wn Up Flux sfc Prist (W/m2)'] lab(467,0:2) = ['#','Der','Unt Wn Dn Flux sfc Prist (W/m2)'] lab(468,0:2) = ['#','Der','Unt Wn Up Flux TOA Prist (W/m2)'] lab(469,0:2) = ['#','Der','Unt SW Up Flux sfc Clr (W/m2)'] lab(470,0:2) = ['#','Der','Unt SW Up Flux TOA Clr (W/m2)'] lab(471,0:2) = ['#','Der','Unt SW Dn Flux sfc Clr (W/m2)'] lab(472,0:2) = ['#','Der','Unt LW Up Flux sfc Clr (W/m2)'] lab(473,0:2) = ['#','Der','Unt LW Dn Flux sfc Clr (W/m2)'] lab(474,0:2) = ['#','Der','Unt LW Up Flux TOA Clr (W/m2)'] lab(475,0:2) = ['#','Der','Unt Wn Up Flux sfc Clr (W/m2)'] lab(476,0:2) = ['#','Der','Unt Wn Dn Flux sfc Clr (W/m2)'] lab(477,0:2) = ['#','Der','Unt Wn Up Flux TOA Clr (W/m2)'] lab(478,0:2) = ['#','Der','Unt SW Up Flux sfc Tot (W/m2)'] lab(479,0:2) = ['#','Der','Unt SW Up Flux TOA Tot (W/m2)'] lab(480,0:2) = ['#','Der','Unt SW Dn Flux sfc Tot (W/m2)'] lab(481,0:2) = ['#','Der','Unt LW Up Flux sfc Tot (W/m2)'] lab(482,0:2) = ['#','Der','Unt LW Dn Flux sfc Tot (W/m2)'] lab(483,0:2) = ['#','Der','Unt LW Up Flux TOA Tot (W/m2)'] lab(484,0:2) = ['#','Der','Unt Wn Up Flux sfc Tot (W/m2)'] lab(485,0:2) = ['#','Der','Unt Wn Dn Flux sfc Tot (W/m2)'] lab(486,0:2) = ['#','Der','Unt Wn Up Flux TOA Tot (W/m2)'] lab(487,0:2) = ['#','Der','Unt SW Up Flux sfc CNA (W/m2)'] lab(488,0:2) = ['#','Der','Unt SW Up Flux TOA CNA (W/m2)'] lab(489,0:2) = ['#','Der','Unt SW Dn Flux sfc CNA (W/m2)'] lab(490,0:2) = ['#','Der','Unt LW Up Flux sfc CNA (W/m2)'] lab(491,0:2) = ['#','Der','Unt LW Dn Flux sfc CNA (W/m2)'] lab(492,0:2) = ['#','Der','Unt LW Up Flux TOA CNA (W/m2)'] lab(493,0:2) = ['#','Der','Unt Wn Up Flux sfc CNA (W/m2)'] lab(494,0:2) = ['#','Der','Unt Wn Dn Flux sfc CNA (W/m2)'] lab(495,0:2) = ['#','Der','Unt Wn Up Flux TOA CNA (W/m2)'] lab(496,0:2) = ['#','Der','Tun Alb TOA Prist (-)'] lab(497,0:2) = ['#','Der','Unt Alb TOA Prist (-)'] lab(498,0:2) = ['#','Der','Tun Alb TOA Clr (-)'] lab(499,0:2) = ['#','Der','Unt Alb TOA Clr (-)'] lab(500,0:2) = ['#','Der','Tun Alb TOA CNA (-)'] lab(501,0:2) = ['#','Der','Unt Alb TOA CNA (-)'] lab(502,0:2) = ['#','Der','Tun Alb TOA (-)'] lab(503,0:2) = ['#','Der','Unt Alb TOA (-)'] lab(504,0:2) = ['#','Der','CERES observed alb TOA (-)'] lab(505,0:2) = ['#','Der','Tun Alb sfc Prist (-)'] lab(506,0:2) = ['#','Der','Unt Alb sfc Prist (-)'] lab(507,0:2) = ['#','Der','Tun Alb sfc Clr (-)'] lab(508,0:2) = ['#','Der','Unt Alb sfc Clr (-)'] lab(509,0:2) = ['#','Der','Tun Alb sfc CNA (-)'] lab(510,0:2) = ['#','Der','Unt Alb sfc CNA (-)'] lab(511,0:2) = ['#','Der','Tun Alb sfc (-)'] lab(512,0:2) = ['#','Der','Unt Alb sfc (-)'] lab(513,0:2) = ['#','Der','Tun Alb sfc input to mod (-)'] lab(514,0:2) = ['#','Der','Glint Angle(deg)'] key( 0) = 'Adj - Adjustment' key( 1) = 'ADM - Anisotropic Directional Model' key( 2) = 'aer - aerosol' key( 3) = 'alb - albedo' key( 4) = 'alt - altitude' key( 5) = 'ang - angle' key( 6) = 'avg - average' key( 7) = 'azi - azimuth' key( 8) = 'cld - cloud' key( 9) = 'clr - clear' key(10) = 'CNA - All-sky w/o aerosol' ; "Clouds No Aerosol (CNA)" key(11) = 'constit- contsituent' key(12) = 'deg - degrees' key(13) = '#Der - variable derived from CRS data' key(14) = 'Dn - downward' key(15) = 'Dia - diameter' key(16) = 'eff - effective' key(17) = 'Emiss - emissivity' key(18) = 'emu - emulated' key(19) = 'fp - footprint' key(20) = 'hgt - height' key(21) = 'hPa - hecto-Pascals' key(22) = 'IGBP - Intern Geosphere Biosphere Proj' key(23) = 'IR - infra-red' key(24) = 'K - Kelvin' key(25) = 'km - kilometers' key(26) = 'lay - layer' key(27) = 'lev - level' key(28) = 'liq - liquid' key(29) = 'LW - longwave' key(30) = 'm - meters' key(31) = 'mc - micron' key(32) = 'Mod - model' key(33) = 'No. - number' key(34) = 'novr - no overlap' key(35) = 'OD - Optical Depth' key(36) = 'ovr - overlap' key(37) = '% - percent' key(38) = 'Prist - pristine' key(39) = 'Prs - pressure' key(40) = 'PW - Precipitable Water' key(41) = 'Rad - radiance' key(42) = 'rel - relative' key(43) = 'RH - Relative Humidity' key(44) = 'SW - shortwave' key(45) = 'std - standard deviation' key(46) = 'sat - satellite' key(47) = 'sec - second' key(48) = 'Sfc - surface' key(49) = 'str - steridian' key(50) = 'temp - temperature' key(51) = 'Tot - total' key(52) = 'trop - tropospheric' key(53) = 'Tun - tuned' key(54) = 'unfilt - unfiltered' key(55) = 'Unt - untuned' key(56) = 'Up - Upward' key(57) = 'vel - velocity' key(58) = 'W - Watts' key(59) = 'Wat - Water' key(60) = 'WN - window' key(61) = 'wrt - with respect to' key(62:99) = '-' End