FileHeader: | AlgorithmID=2A25;
AlgorithmVersion=7.73;
FileName=2A25.20140213.92535.7.HDF;
GenerationDateTime=2014-02-14T18:06:10.000Z;
StartGranuleDateTime=2014-02-12T22:34:20.593Z;
StopGranuleDateTime=2014-02-13T00:06:43.285Z;
GranuleNumber=92535;
NumberOfSwaths=1;
NumberOfGrids=0;
GranuleStart=SOUTHERNMOST_LATITUDE;
TimeInterval=ORBIT;
ProcessingSystem=PPS;
ProductVersion=7;
MissingData=0;
|
InputRecord: | InputFileNames=1C21.20140213.92535.7.HDF,2A21.20140213.92535.7.HDF,2A23.20140213.92535.7.HDF;
InputAlgorithmVersions=7.53,7.6,7.12;
InputGenerationDateTimes=2014-02-14T15:09:21.000Z,2014-02-14T15:09:28.000Z,2014-02-14T18:02:47.000Z;
|
NavigationRecord: | LongitudeOfMaximumLatitude=-161.117813;
SolarBetaAngleAtBeginningOfGranule=-48.959110;
SolarBetaAngleAtEndOfGranule=-49.003784;
|
FileInfo: | DataFormatVersion=m;
TKCodeBuildVersion=1;
MetadataVersion=m;
FormatPackage=HDF Version 4.2 Release 4, January 25, 2009;
BlueprintFilename=TRMM.V7.2A25.blueprint.xml;
BlueprintVersion=BV_13;
TKIOVersion=1.6;
MetadataStyle=PVL;
EndianType=LITTLE_ENDIAN;
|
JAXAInfo: | CalibrationCoefficientVersion=2;
GranuleFirstScanUTCDate=2014/02/12;
GranuleFirstScanUTCTime=22:34:20;
GranuleFirstScanUTCMilliseconds=682;
GranuleLastScanUTCDate=2014/02/13;
GranuleLastScanUTCTime=00:06:43;
GranuleLastScanUTCMilliseconds=120;
SoftwareVersion=3;
DatabaseVersion=5;
TotalQualityCode=G;
LongitudeOnEquator=114.800301;
UTCDateOnEquator=2014/02/12;
UTCTimeOnEquator=22:57:26;
UTCMillisecondsOnEquator=915;
CenterScanUTCDate=2014/02/12;
CenterScanUTCTime=23:20:31;
CenterScanUTCMilliseconds=301;
FirstScanLat=-35.107403;
FirstScanLon=30.726913;
LastScanLat=-35.106743;
LastScanLon=7.126120;
NumberOfRainScans=1977;
|
Parameters_General: | 1 /* parameter file for v7.2 of 2A25. Aug. 21, 2010 */
2 /* Do not delete empty lines. */
3 /* Do not add or delete lines. Absolute line numbers are important. */
4 1.0000 vratio[0] /* Terminal velocity ratio at 0 km */
5 1.0396 vratio[1] /* Terminal velocity ratio at 1 km */
6 1.0817 vratio[2] /* Terminal velocity ratio at 2 km */
7 1.1266 vratio[3] /* Terminal velocity ratio at 3 km */
8 1.1745 vratio[4] /* Terminal velocity ratio at 4 km */
9 1.2257 vratio[5] /* Terminal velocity ratio at 5 km */
10 1.2806 vratio[6] /* Terminal velocity ratio at 6 km */
11 1.3394 vratio[7] /* Terminal velocity ratio at 7 km */
12 1.4026 vratio[8] /* Terminal velocity ratio at 8 km */
13 1.4706 vratio[9] /* Terminal velocity ratio at 9 km */
14 1.5440 vratio[10] /* Terminal velocity ratio at 10 km */
15 1.6234 vratio[11] /* Terminal velocity ratio at 11 km */
16 1.7283 vratio[12] /* Terminal velocity ratio at 12 km */
17 1.8404 vratio[13] /* Terminal velocity ratio at 13 km */
18 1.9597 vratio[14] /* Terminal velocity ratio at 14 km */
19 2.0867 vratio[15] /* Terminal velocity ratio at 15 km */
20 2.2219 vratio[16] /* Terminal velocity ratio at 16 km */
21 2.3658 vratio[17] /* Terminal velocity ratio at 17 km */
22 2.5189 vratio[18] /* Terminal velocity ratio at 18 km */
23 2.6819 vratio[19] /* Terminal velocity ratio at 19 km */
24 2.8554 vratio[20] /* Terminal velocity ratio at 20 km */
25 0.075 lprate /* 1/20 of the lapse rate per 250 m */
26 1.0 fhcf_strat /* FH correction factor for stratiform rain */
27 1.2 fhcf_conv /* FH correction factor for convective rain */
28 0.3 nsd_cnv_ocean[0] /* Conv. factor of NSD for stratiform */
29 0.3 nsd_cnv_ocean[1] /* Conv. factor of NSD for convective */
30 0.3 nsd_cnv_ocean[2] /* Conv. factor of NSD for default */
31 0.3 nsd_cnv_land[0] /* Conv. factor of NSD for stratiform */
32 0.5 nsd_cnv_land[1] /* Conv. factor of NSD for convective */
33 0.3 nsd_cnv_land[2] /* Conv. factor of NSD for default */
34 0.10 zeta_min /* Threshold value of zeta for SRT */
35 5.00 zeta_max /* Threshold for zeta to judge something wrong. */
36 0.70 zeta_th_L /* Threshold for zeta to judge large attenuation. */
37 0.00 z_offset /* Offset to be added to 1C21 Z factor in dB */
38 0.00 z_slope[0][0] /* Slope for ocean strat in clutter. + for larger Z toward surf. */
39 0.00 z_slope[0][1] /* Slope of dBZ/km for ocean conv. in cluttered range */
40 0.00 z_slope[0][2] /* Slope of dBZ/km for ocean others in cluttered range */
41 -0.50 z_slope[1][0] /* Slope of dBZ/km for land strat in clutter. */
42 0.00 z_slope[1][1] /* Slope of dBZ/km for land conv. in cluttered range */
43 0.00 z_slope[1][2] /* Slope of dBZ/km for land others in cluttered range */
44 1.00 epsi_init[0][0] /* initial offset factor of epsilon for ocean stratiform rain */
45 1.00 epsi_init[0][1] /* initial offset factor of epsilon for ocean convective rain */
46 1.00 epsi_init[0][2] /* initial offset factor of epsilon for ocean other rain */
47 1.00 epsi_init[1][0] /* initial offset factor of epsilon for land stratiform rain */
48 1.00 epsi_init[1][1] /* initial offset factor of epsilon for land convective rain */
49 1.00 epsi_init[1][2] /* initial offset factor of epsilon for land other rain */
50 0.08 atten_O2_surf /* PIA due to O2 at 0 m from geoid */
51 7.70 scale_h_O2 /* scale height of O2 in km */
52 90.0 r_humid_in_rain /* relative humidity inside the raining area */
53 70.0 r_humid_out_rain /* relative humidity outside the raining area */
54 2.00 scale_h_H2O /* scale height of H2O in km */
55 -20.0 temp_p_ice /* temperature of the height above which particles are 100% ice */
|
Parameters_Convective: | 1 /* parameter file for v6.9 of 2A25. January 18 2008, SP0, Oblate*/
2 /* Do not delete empty lines. */
3 /* Do not add or delete lines. Absolute line numbers are important. */
4 /* convective rain parameters */
5 /* coefficients for R-Z relationship: R = a * Z^b
6 log10(a) = zr_a_c0 + zr_a_c1*x + zr_a_c2*x*x
7 log10(b) = zr_b_c0 + zr_b_c1*x + zr_b_c2*x*x
8 where x = log10(alpha_final/alpha_initial) */
9 /* initial coefficients of k-Z relationship: k = alpha * Z^beta */
10 0.000048144 alpha_init[1][0] /* alpha for snow, no water */
11 0.000141036 alpha_init[1][1] /* alpha for low density snow, 0.011 */
12 0.000428637 alpha_init[1][2] /* alpha for rain (convective) 0C */
13 0.000428637 alpha_init[1][3] /* alpha for rain (convective) 0C */
14 0.000432574 alpha_init[1][4] /* alpha for rain (convective) 20C */
15 0.758892044 beta_init[1] /* beta for convective column, conv */
16 /* R-Ze coefficients */
17 -1.6071 zr_a_c0[1][0] /* convective, bb.000 */
18 -1.6929 zr_a_c0[1][1] /* convective, bb.011, a=0.02028, a'= 174.0 */
19 -1.4336 zr_a_c0[1][2] /* convective, 0C , a=0.03685, a'= 163.2 */
20 -1.4336 zr_a_c0[1][3] /* convective, 0C , a=0.03685, a'= 163.2 */
21 -1.3754 zr_a_c0[1][4] /* convective, 20C , */
22
23 1.6925 zr_a_c1[1][0] /* convective, bb.000 */
24 1.7174 zr_a_c1[1][1] /* convective, bb.011 */
25 0.8576 zr_a_c1[1][2] /* convective, 0C */
26 0.8576 zr_a_c1[1][3] /* convective, 0C */
27 0.9149 zr_a_c1[1][4] /* convective, 20C */
28
29 -0.4980 zr_a_c2[1][0] /* convective, bb.000 */
30 -0.5336 zr_a_c2[1][1] /* convective, bb.011 */
31 -1.1231 zr_a_c2[1][2] /* convective, 0C */
32 -1.1231 zr_a_c2[1][3] /* convective, 0C */
33 -2.0411 zr_a_c2[1][4] /* convective, 20C */
34
35 -0.1215 zr_b_c0[1][0] /* convective, bb.000 */
36 -0.1217 zr_b_c0[1][1] /* convective, bb.011, b=0.7556, 1/b=1.3234 */
37 -0.1885 zr_b_c0[1][2] /* convective, 0C, b=0.6479, 1/b=1.543 */
38 -0.1885 zr_b_c0[1][3] /* convective, 0C, */
39 -0.1999 zr_b_c0[1][4] /* convective, 20C, */
40
41 -0.1163 zr_b_c1[1][0] /* convective, bb.000 */
42 -0.1163 zr_b_c1[1][1] /* convective, bb.011 */
43 +0.0980 zr_b_c1[1][2] /* convective, 0C */
44 +0.0980 zr_b_c1[1][3] /* convective, 0C */
45 +0.0989 zr_b_c1[1][4] /* convective, 20C */
46
47 0.1293 zr_b_c2[1][0] /* convective, bb.000 */
48 0.1302 zr_b_c2[1][1] /* convective, bb.011 */
49 0.1915 zr_b_c2[1][2] /* convective, 0C */
50 0.1915 zr_b_c2[1][3] /* convective, 0C */
51 0.3602 zr_b_c2[1][4] /* convective, 20C */
52 /* LWC-Ze coefficients (log10 of a and b in LWC = a Ze^b) */
53 -2.1282 zl_a_c0[1][0] /* convective, bb.000 */
54 -2.2064 zl_a_c0[1][1] /* convective, bb.011 */
55 -2.3853 zl_a_c0[1][2] /* convective, 0C */
56 -2.3853 zl_a_c0[1][3] /* convective, 0C */
57 -2.3344 zl_a_c0[1][4] /* convective, 20C */
58
59 1.9214 zl_a_c1[1][0] /* convective, 000 */
60 1.9449 zl_a_c1[1][1] /* convective, 0.011 */
61 1.4747 zl_a_c1[1][2] /* convective, 0C */
62 1.4747 zl_a_c1[1][3] /* convective, 0C */
63 1.5221 zl_a_c1[1][4] /* convective, 20C */
64
65 -0.5186 zl_a_c2[1][0] /* convective, 000 */
66 -0.5547 zl_a_c2[1][1] /* convective, bb0.011 */
67 -0.9973 zl_a_c2[1][2] /* convective, 0C */
68 -0.9973 zl_a_c2[1][3] /* convective, 0C */
69 -1.8038 zl_a_c2[1][4] /* convective, 20C */
70
71 -0.1615 zl_b_c0[1][0] /* convective, 000 */
72 -0.1617 zl_b_c0[1][1] /* convective, bb0.011 */
73 -0.1617 zl_b_c0[1][2] /* convective, 0C */
74 -0.1617 zl_b_c0[1][3] /* convective, 0C */
75 -0.2583 zl_b_c0[1][4] /* convective, 20C */
76
77 -0.1197 zl_b_c1[1][0] /* convective, 000 */
78 -0.1198 zl_b_c1[1][1] /* convective, bb0.011 */
79 +0.0557 zl_b_c1[1][2] /* convective, 0C */
80 +0.0557 zl_b_c1[1][3] /* convective, 0C */
81 +0.0567 zl_b_c1[1][4] /* convective, 20C */
82
83 0.1477 zl_b_c2[1][0] /* convective, 000 */
84 0.1488 zl_b_c2[1][1] /* convective, bb0.011 */
85 0.2215 zl_b_c2[1][2] /* convective, 0C */
86 0.2215 zl_b_c2[1][3] /* convective, 0C */
87 0.3900 zl_b_c2[1][4] /* convective, 20C */
|
Parameters_Stratiform: | 1 /* parameter file for v6.9 of 2A25. January 18, 2008. SP0, Oblate */
2 /* Do not delete empty lines. */
3 /* Do not add or delete lines. Absolute line numbers are important. */
4 /* stratiform parameters */
5 /* coefficients for R-Z relationship: R = a * Z^b
6 log10(a) = zr_a_c0 + zr_a_c1*x + zr_a_c2*x*x
7 log10(b) = zr_b_c0 + zr_b_c1*x + zr_b_c2*x*x
8 where x = log10(alpha_final/alpha_initial) */
9 /* initial coefficients of k-Z relationship: k = alpha * Z^beta */
10 0.000031244 alpha_init[0][0] /* alpha for snow, no water */
11 0.00012651 alpha_init[0][1] /* alpha for low density snow, 0.017 */
12 0.00050167 alpha_init[0][2] /* alpha for high density snow, 0.170 */
13 0.00031110 alpha_init[0][3] /* alpha for rain (stratiform) 0C */
14 0.00030719 alpha_init[0][4] /* alpha for rain (stratiform) 20C */
15 0.78069 beta_init[0] /* beta for stratiform column, strat */
16 /* R-Ze coefficients */
17 -1.7219 zr_a_c0[0][0] /* stratiform, bb.000 */
18 -1.8539 zr_a_c0[0][1] /* stratiform, bb.017 */
19 -2.3052 zr_a_c0[0][2] /* stratiform, bb.170 */
20 -1.6599 zr_a_c0[0][3] /* stratiform, 0C */
21 -1.6085 zr_a_c0[0][4] /* stratiform, 20C */
22
23 1.4946 zr_a_c1[0][0] /* stratiform, bb.000 */
24 1.4974 zr_a_c1[0][1] /* stratiform, bb.017 */
25 1.3411 zr_a_c1[0][2] /* stratiform, bb.170 */
26 0.8867 zr_a_c1[0][3] /* stratiform, rain 0C */
27 0.8766 zr_a_c1[0][4] /* stratiform, rain 20C */
28
29 -0.2649 zr_a_c2[0][0] /* stratiform, bb.000 */
30 -0.3013 zr_a_c2[0][1] /* stratiform, bb.017 */
31 -0.4044 zr_a_c2[0][2] /* stratiform, bb.170 */
32 -0.5135 zr_a_c2[0][3] /* stratiform, rain 0C */
33 -1.2587 zr_a_c2[0][4] /* stratiform, rain 20C */
34
35 -0.1144 zr_b_c0[0][0] /* stratiform, bb.000 */
36 -0.1191 zr_b_c0[0][1] /* stratiform, bb.017 */
37 -0.1380 zr_b_c0[0][2] /* stratiform, bb.170 */
38 -0.1647 zr_b_c0[0][3] /* stratiform, rain 0C */
39 -0.1752 zr_b_c0[0][4] /* stratiform, rain 20C */
40
41 -0.0916 zr_b_c1[0][0] /* stratiform, bb.000 */
42 -0.0801 zr_b_c1[0][1] /* stratiform, bb.017 */
43 -0.0206 zr_b_c1[0][2] /* stratiform, bb.170 */
44 0.1022 zr_b_c1[0][3] /* stratiform, rain 0C */
45 0.1179 zr_b_c1[0][4] /* stratiform, rain 20C */
46
47 0.1120 zr_b_c2[0][0] /* stratiform, bb.000 */
48 0.1077 zr_b_c2[0][1] /* stratiform, bb.017 */
49 0.0889 zr_b_c2[0][2] /* stratiform, bb.170 */
50 0.0849 zr_b_c2[0][3] /* stratiform, rain 0C */
51 0.2340 zr_b_c2[0][4] /* stratiform, rain 20C */
52 /* LWC-Ze coefficients (log10 of a and b in LWC = a Ze^b) */
53 -2.2832 zl_a_c0[0][0] /* stratiform, bb.000 */
54 -2.4363 zl_a_c0[0][1] /* stratiform, bb.017 */
55 -3.0777 zl_a_c0[0][2] /* stratiform, bb.17 */
56 -2.6467 zl_a_c0[0][3] /* stratiform, 0C */
57 -2.6012 zl_a_c0[0][4] /* stratiform, 20C */
58
59 1.7341 zl_a_c1[0][0] /* stratiform, bb.000 */
60 1.7341 zl_a_c1[0][1] /* stratiform, bb.017 */
61 1.7242 zl_a_c1[0][2] /* stratiform, bb.17 */
62 1.4447 zl_a_c1[0][3] /* stratiform, 0C */
63 1.4340 zl_a_c1[0][4] /* stratiform, 20C */
64
65 -0.2535 zl_a_c2[0][0] /* stratiform */
66 -0.2765 zl_a_c2[0][1] /* stratiform */
67 -0.3844 zl_a_c2[0][2] /* stratiform */
68 -0.4233 zl_a_c2[0][3] /* stratiform, 0C */
69 -1.0819 zl_a_c2[0][4] /* stratiform, 20C */
70
71 -0.1497 zl_b_c0[0][0] /* stratiform */
72 -0.1544 zl_b_c0[0][1] /* stratiform */
73 -0.1779 zl_b_c0[0][2] /* stratiform */
74 -0.2178 zl_b_c0[0][3] /* stratiform, 0C */
75 -0.2283 zl_b_c0[0][4] /* stratiform, 20C */
76
77 -0.0933 zl_b_c1[0][0] /* stratiform */
78 -0.0812 zl_b_c1[0][1] /* stratiform */
79 -0.0391 zl_b_c1[0][2] /* stratiform */
80 +0.0691 zl_b_c1[0][3] /* stratiform, 0C */
81 +0.0848 zl_b_c1[0][4] /* stratiform, 20C */
82
83 0.1223 zl_b_c2[0][0] /* stratiform */
84 0.1151 zl_b_c2[0][1] /* stratiform */
85 0.1036 zl_b_c2[0][2] /* stratiform */
86 0.1079 zl_b_c2[0][3] /* stratiform, 0C */
87 0.2568 zl_b_c2[0][4] /* stratiform, 20C */
|
Parameters_Other: | 1 /* parameter file for v6.9 of 2A25. January 18 2008, SP0, Oblate*/
2 /* Do not delete empty lines. */
3 /* Do not add or delete lines. Absolute line numbers are important. */
4 /* convective rain parameters */
5 /* coefficients for R-Z relationship: R = a * Z^b
6 log10(a) = zr_a_c0 + zr_a_c1*x + zr_a_c2*x*x
7 log10(b) = zr_b_c0 + zr_b_c1*x + zr_b_c2*x*x
8 where x = log10(alpha_final/alpha_initial) */
9 /* initial coefficients of k-Z relationship: k = alpha * Z^beta */
10 0.000048144 alpha_init[2][0] /* alpha for snow, no water */
11 0.000141036 alpha_init[2][1] /* alpha for low density snow, 0.011 */
12 0.000428637 alpha_init[2][2] /* alpha for rain (convective) 0C */
13 0.000428637 alpha_init[2][3] /* alpha for rain (convective) 0C */
14 0.000432574 alpha_init[2][4] /* alpha for rain (convective) 20C */
15 0.758892044 beta_init[2] /* beta for convective column, conv */
16 /* R-Ze coefficients */
17 -1.6071 zr_a_c0[2][0] /* convective, bb.000 */
18 -1.6929 zr_a_c0[2][1] /* convective, bb.011, a=0.02027, a'= 174.0 */
19 -1.4336 zr_a_c0[2][2] /* convective, 0C , a=0.03685, a'= 163.2 */
20 -1.4336 zr_a_c0[2][3] /* convective, 0C , a=0.03685, a'= 163.2 */
21 -1.3754 zr_a_c0[2][4] /* convective, 20C , */
22
23 1.6925 zr_a_c1[2][0] /* convective, bb.000 */
24 1.7174 zr_a_c1[2][1] /* convective, bb.011 */
25 0.8576 zr_a_c1[2][2] /* convective, 0C */
26 0.8576 zr_a_c1[2][3] /* convective, 0C */
27 0.9149 zr_a_c1[2][4] /* convective, 20C */
28
29 -0.4980 zr_a_c2[2][0] /* convective, bb.000 */
30 -0.5336 zr_a_c2[2][1] /* convective, bb.011 */
31 -1.1231 zr_a_c2[2][2] /* convective, 0C */
32 -1.1231 zr_a_c2[2][3] /* convective, 0C */
33 -2.0411 zr_a_c2[2][4] /* convective, 20C */
34
35 -0.1215 zr_b_c0[2][0] /* convective, bb.000 */
36 -0.1217 zr_b_c0[2][1] /* convective, bb.011, b=0.7556, 1/b=1.3234 */
37 -0.1885 zr_b_c0[2][2] /* convective, 0C, */
38 -0.1885 zr_b_c0[2][3] /* convective, 0C, */
39 -0.1999 zr_b_c0[2][4] /* convective, 20C, */
40
41 -0.1163 zr_b_c1[2][0] /* convective, bb.000 */
42 -0.1163 zr_b_c1[2][1] /* convective, bb.011 */
43 +0.0980 zr_b_c1[2][2] /* convective, 0C */
44 +0.0980 zr_b_c1[2][3] /* convective, 0C */
45 +0.0989 zr_b_c1[2][4] /* convective, 20C */
42
47 0.1293 zr_b_c2[2][0] /* convective, bb.000 */
48 0.1302 zr_b_c2[2][1] /* convective, bb.011 */
49 0.1915 zr_b_c2[2][2] /* convective, 0C */
50 0.1915 zr_b_c2[2][3] /* convective, 0C */
51 0.3602 zr_b_c2[2][4] /* convective, 20C */
52 /* LWC-Ze coefficients (log10 of a and b in LWC = a Ze^b) */
53 -2.1282 zl_a_c0[2][0] /* convective, bb.000 */
54 -2.2064 zl_a_c0[2][1] /* convective, bb.011 */
55 -2.3853 zl_a_c0[2][2] /* convective, 0C */
56 -2.3853 zl_a_c0[2][3] /* convective, 0C */
57 -2.3344 zl_a_c0[2][4] /* convective, 20C */
58
59 1.9214 zl_a_c1[2][0] /* convective, 000 */
60 1.9449 zl_a_c1[2][1] /* convective, 0.011 */
61 1.4747 zl_a_c1[2][2] /* convective, 0C */
62 1.4747 zl_a_c1[2][3] /* convective, 0C */
63 1.5221 zl_a_c1[2][4] /* convective, 20C */
64
65 -0.5186 zl_a_c2[2][0] /* convective, 000 */
66 -0.5547 zl_a_c2[2][1] /* convective, bb0.011 */
67 -0.9973 zl_a_c2[2][2] /* convective, 0C */
68 -0.9973 zl_a_c2[2][3] /* convective, 0C */
69 -1.8038 zl_a_c2[2][4] /* convective, 20C */
70
71 -0.1615 zl_b_c0[2][0] /* convective, 000 */
72 -0.1617 zl_b_c0[2][1] /* convective, bb0.011 */
73 -0.1617 zl_b_c0[2][2] /* convective, 0C */
74 -0.1617 zl_b_c0[2][3] /* convective, 0C */
75 -0.2583 zl_b_c0[2][4] /* convective, 20C */
76
77 -0.1197 zl_b_c1[2][0] /* convective, 000 */
78 -0.1198 zl_b_c1[2][1] /* convective, bb0.011 */
79 +0.0557 zl_b_c1[2][2] /* convective, 0C */
80 +0.0557 zl_b_c1[2][3] /* convective, 0C */
81 +0.0567 zl_b_c1[2][4] /* convective, 20C */
82
83 0.1477 zl_b_c2[2][0] /* convective, 000 */
84 0.1488 zl_b_c2[2][1] /* convective, bb0.011 */
85 0.2215 zl_b_c2[2][2] /* convective, 0C */
86 0.2215 zl_b_c2[2][3] /* convective, 0C */
87 0.3900 zl_b_c2[2][4] /* convective, 20C */
|
Parameters_Errors: | 01 0.7 d_Zm_typ /* Typical error (offset) in Zm in dB */
02 0.5 d_alpha_typ /* Typical error in alpha in dB */
03 0.05 d_beta_typ /* Typical error in beta in dB */
04 0.6 d_zra_typ /* Typical error in a in dB */
05 0.05 d_zrb_typ /* Typical error in b in dB */
06 1.5 d_surf_typ /* Typical error in sigma^0 in dB */
07 1.0 d_nubfCf_s /* Typical error in NUBF correct. factor for surf.*/
08 0.2 d_nubfCf_zr /* Typical error in NUBF correct. factor for ZR */
09 -0.2 dv_dh /* Typical change of velocity per km in dB*/
10 1.0 height_err_0C /* 0C height error in km */
11 0.3 height_err_BB /* BB height error in km when it exists */
12 -0.07 dalpha_dT /* Change of alpha per 1 degree in dB */
13 0.01 dbeta_dT /* Change of beta per degree in dB */
14 0.02 da_dT /* Change of a in ZR per degree in dB */
15 -0.005 db_dT /* Change of b in ZR per degree in dB */
16 1.3 d_alpha_id /* Error in alpha in dB caused by wrong ident. */
17 -0.05 d_beta_id /* Error in beta in dB caused by wrong ident. */
18 2.00 d_zra_id /* Error in a in dB caused by wrong identification */
19 0.02 d_zrb_id /* Error in b in dB caused by wrong identification */
20 0.25 stddev_epsi_strat /* nominal error of epsilon for strat in linear unit */
21 0.25 stddev_epsi_conv /* nominal error of epsilon for conv in linear unit */
22 0.7 stddev_SRT_O /* nominal error of SRT over ocean in dB */
23 0.7 stddev_SRT_L /* nominal error of SRT over land in dB */
24 5.0 stddev_SRT_N /* nominal error of SRT in const-Z method in dB */
|
SwathHeader: | NumberScansInSet=1;
MaximumNumberScansTotal=10000;
NumberScansBeforeGranule=0;
NumberScansGranule=9247;
NumberScansAfterGranule=0;
NumberPixels=49;
ScanType=CROSSTRACK;
|
comment: | The HDF4 OPeNDAP handler adds _FillValue, valid_min and valid_max for some TRMM level 1 and level 2 products. It also changes scale_factor to follow CF conventions. |
references: | http://pps.gsfc.nasa.gov/Documents/filespec.TRMM.V7.pdf |
mainlobeEdge: | Array of 32 bit Integers [nray = 0..48] |
sidelobeRange: | Array of 32 bit Integers [nray = 0..48][fakeDim1 = 0..2] |
ScanTime_Year: | Array of 16 bit Integers [nscan = 0..9246] units: years |
ScanTime_Month: | Array of 32 bit Integers [nscan = 0..9246] units: months |
ScanTime_DayOfMonth: | Array of 32 bit Integers [nscan = 0..9246] units: days |
ScanTime_Hour: | Array of 32 bit Integers [nscan = 0..9246] units: hours |
ScanTime_Minute: | Array of 32 bit Integers [nscan = 0..9246] units: minutes |
ScanTime_Second: | Array of 32 bit Integers [nscan = 0..9246] units: s |
ScanTime_MilliSecond: | Array of 16 bit Integers [nscan = 0..9246] units: ms |
ScanTime_DayOfYear: | Array of 16 bit Integers [nscan = 0..9246] units: days |
scanTime_sec: | Array of 64 bit Reals [nscan = 0..9246] units: s |
Latitude: | Array of 32 bit Reals [nscan = 0..9246][nray = 0..48] standard_name: latitude units: degrees_north |
Longitude: | Array of 32 bit Reals [nscan = 0..9246][nray = 0..48] standard_name: longitude units: degrees_east |
scanStatus_missing: | Array of 32 bit Integers [nscan = 0..9246] |
scanStatus_validity: | Array of 32 bit Integers [nscan = 0..9246] |
scanStatus_qac: | Array of 32 bit Integers [nscan = 0..9246] |
scanStatus_geoQuality: | Array of 32 bit Integers [nscan = 0..9246] |
scanStatus_dataQuality: | Array of 32 bit Integers [nscan = 0..9246] |
scanStatus_SCorientation: | Array of 16 bit Integers [nscan = 0..9246] units: degrees |
scanStatus_acsMode: | Array of 32 bit Integers [nscan = 0..9246] |
scanStatus_yawUpdateS: | Array of 32 bit Integers [nscan = 0..9246] |
scanStatus_prMode: | Array of 32 bit Integers [nscan = 0..9246] |
scanStatus_prStatus1: | Array of 32 bit Integers [nscan = 0..9246] |
scanStatus_prStatus2: | Array of 32 bit Integers [nscan = 0..9246] |
scanStatus_FractionalGranuleNumber: | Array of 64 bit Reals [nscan = 0..9246] |
navigation_scPosX: | Array of 32 bit Reals [nscan = 0..9246] units: m |
navigation_scPosY: | Array of 32 bit Reals [nscan = 0..9246] units: m |
navigation_scPosZ: | Array of 32 bit Reals [nscan = 0..9246] units: m |
navigation_scVelX: | Array of 32 bit Reals [nscan = 0..9246] units: m/s |
navigation_scVelY: | Array of 32 bit Reals [nscan = 0..9246] units: m/s |
navigation_scVelZ: | Array of 32 bit Reals [nscan = 0..9246] units: m/s |
navigation_scLat: | Array of 32 bit Reals [nscan = 0..9246] units: degrees |
navigation_scLon: | Array of 32 bit Reals [nscan = 0..9246] units: degrees |
navigation_scAlt: | Array of 32 bit Reals [nscan = 0..9246] units: m |
navigation_scAttRoll: | Array of 32 bit Reals [nscan = 0..9246] units: degrees |
navigation_scAttPitch: | Array of 32 bit Reals [nscan = 0..9246] units: degrees |
navigation_scAttYaw: | Array of 32 bit Reals [nscan = 0..9246] units: degrees |
navigation_SensorOrientationMatrix: | Array of 32 bit Reals [nscan = 0..9246][fakeDim1 = 0..2][fakeDim1 = 0..2] |
navigation_greenHourAng: | Array of 32 bit Reals [nscan = 0..9246] units: degrees |
scLocalZenith: | Array of 32 bit Reals [nscan = 0..9246][nray = 0..48] coordinates: Latitude Longitude |
rain: | Array of 16 bit Integers [nscan = 0..9246][nray = 0..48][ncell1 = 0..79] scale_factor_err: 0.0000000000000000 add_offset: 0.0000000000000000 add_offset_err: 0.0000000000000000 calibrated_nt: 22 units: mm/hr coordinates: Latitude Longitude ncell1 valid_min: 0 valid_max: 30000 scale_factor: 0.010000000000000000 |
reliab: | Array of 32 bit Integers [nscan = 0..9246][nray = 0..48][ncell1 = 0..79] coordinates: Latitude Longitude ncell1 |
correctZFactor: | Array of 16 bit Integers [nscan = 0..9246][nray = 0..48][ncell1 = 0..79] scale_factor_err: 0.0000000000000000 add_offset: 0.0000000000000000 add_offset_err: 0.0000000000000000 calibrated_nt: 22 units: dBZ coordinates: Latitude Longitude ncell1 valid_min: 0 valid_max: 8000 scale_factor: 0.010000000000000000 |
attenParmAlpha: | Array of 32 bit Reals [nscan = 0..9246][nray = 0..48][ncell2 = 0..4] coordinates: Latitude Longitude ncell2 |
attenParmBeta: | Array of 32 bit Reals [nscan = 0..9246][nray = 0..48] coordinates: Latitude Longitude |
parmNode: | Array of 16 bit Integers [nscan = 0..9246][nray = 0..48][ncell2 = 0..4] coordinates: Latitude Longitude ncell2 |
precipWaterParmA: | Array of 32 bit Reals [nscan = 0..9246][nray = 0..48][ncell2 = 0..4] coordinates: Latitude Longitude ncell2 |
precipWaterParmB: | Array of 32 bit Reals [nscan = 0..9246][nray = 0..48][ncell2 = 0..4] coordinates: Latitude Longitude ncell2 |
ZRParmA: | Array of 32 bit Reals [nscan = 0..9246][nray = 0..48][ncell2 = 0..4] coordinates: Latitude Longitude ncell2 |
ZRParmB: | Array of 32 bit Reals [nscan = 0..9246][nray = 0..48][ncell2 = 0..4] coordinates: Latitude Longitude ncell2 |
zmmax: | Array of 32 bit Reals [nscan = 0..9246][nray = 0..48] units: dBZ coordinates: Latitude Longitude |
rainFlag: | Array of 16 bit Integers [nscan = 0..9246][nray = 0..48] coordinates: Latitude Longitude |
rangeBinNum: | Array of 16 bit Integers [nscan = 0..9246][nray = 0..48][fakeDim7 = 0..6] coordinates: Latitude Longitude fakeDim7 |
rainAve: | Array of 32 bit Reals [nscan = 0..9246][nray = 0..48][nmeth = 0..1] units: mm/hr coordinates: Latitude Longitude nmeth |
precipWaterSum: | Array of 32 bit Reals [nscan = 0..9246][nray = 0..48][nmeth = 0..1] units: gkm/m^3 coordinates: Latitude Longitude nmeth |
epsilon_0: | Array of 32 bit Reals [nscan = 0..9246][nray = 0..48] coordinates: Latitude Longitude |
method: | Array of 16 bit Integers [nscan = 0..9246][nray = 0..48] coordinates: Latitude Longitude |
epsilon: | Array of 32 bit Reals [nscan = 0..9246][nray = 0..48] coordinates: Latitude Longitude |
epsilon_alpha: | Array of 32 bit Reals [nscan = 0..9246][nray = 0..48] coordinates: Latitude Longitude |
epsilon_nubf: | Array of 32 bit Reals [nscan = 0..9246][nray = 0..48] coordinates: Latitude Longitude |
zeta: | Array of 32 bit Reals [nscan = 0..9246][nray = 0..48][nmeth = 0..1] coordinates: Latitude Longitude nmeth |
zeta_mn: | Array of 32 bit Reals [nscan = 0..9246][nray = 0..48][nmeth = 0..1] coordinates: Latitude Longitude nmeth |
zeta_sd: | Array of 32 bit Reals [nscan = 0..9246][nray = 0..48][nmeth = 0..1] coordinates: Latitude Longitude nmeth |
sigmaZero: | Array of 32 bit Reals [nscan = 0..9246][nray = 0..48] coordinates: Latitude Longitude |
freezH: | Array of 32 bit Reals [nscan = 0..9246][nray = 0..48] coordinates: Latitude Longitude |
nubfCorrectFactor: | Array of 32 bit Reals [nscan = 0..9246][nray = 0..48][fakeDim1 = 0..2] coordinates: Latitude Longitude fakeDim1 |
stddev_zeta: | Array of 32 bit Reals [nscan = 0..9246][nray = 0..48] coordinates: Latitude Longitude |
stddev_PIAsrt: | Array of 32 bit Reals [nscan = 0..9246][nray = 0..48] units: dB coordinates: Latitude Longitude |
stddev_alpha: | Array of 32 bit Reals [nscan = 0..9246][nray = 0..48] coordinates: Latitude Longitude |
stddev_Zm: | Array of 32 bit Reals [nscan = 0..9246][nray = 0..48] units: dBZ coordinates: Latitude Longitude |
qualityFlag: | Array of 16 bit Integers [nscan = 0..9246][nray = 0..48] coordinates: Latitude Longitude |
nearSurfRain: | Array of 32 bit Reals [nscan = 0..9246][nray = 0..48] units: mm/hr coordinates: Latitude Longitude |
nearSurfZ: | Array of 32 bit Reals [nscan = 0..9246][nray = 0..48] units: dBZ coordinates: Latitude Longitude |
e_SurfRain: | Array of 32 bit Reals [nscan = 0..9246][nray = 0..48] units: mm/hr coordinates: Latitude Longitude |
pia: | Array of 32 bit Reals [nscan = 0..9246][nray = 0..48][fakeDim1 = 0..2] units: dB coordinates: Latitude Longitude fakeDim1 |
pia_srt: | Array of 32 bit Reals [nscan = 0..9246][nray = 0..48][nestmeth = 0..5] units: dB coordinates: Latitude Longitude nestmeth |
stddev_srt: | Array of 32 bit Reals [nscan = 0..9246][nray = 0..48][nestmeth = 0..5] units: dB coordinates: Latitude Longitude nestmeth |
errorRain: | Array of 32 bit Reals [nscan = 0..9246][nray = 0..48] units: dB coordinates: Latitude Longitude |
errorZ: | Array of 32 bit Reals [nscan = 0..9246][nray = 0..48] units: dBZ coordinates: Latitude Longitude |
spare: | Array of 32 bit Reals [nscan = 0..9246][nray = 0..48][nmeth = 0..1] coordinates: Latitude Longitude nmeth |
rainType: | Array of 16 bit Integers [nscan = 0..9246][nray = 0..48] coordinates: Latitude Longitude |
fakeDim1: | Array of 32 bit Integers [fakeDim1 = 0..2] units: level |
fakeDim7: | Array of 32 bit Integers [fakeDim7 = 0..6] units: level |
ncell1: | Array of 32 bit Integers [ncell1 = 0..79] units: level |
ncell2: | Array of 32 bit Integers [ncell2 = 0..4] units: level |
nestmeth: | Array of 32 bit Integers [nestmeth = 0..5] units: level |
nmeth: | Array of 32 bit Integers [nmeth = 0..1] units: level |