SOLUTION INDEPENDENT EXCHANGE FORMAT: SINEX |
Recently, an effort has been made to design a standard output format for
solutions. These solutions may be the product of a single baseline reduction
program (typically commercial phase reduction software), a multi-baseline
/ multi-session reduction program (such as possible with GPS scientific
software), or secondary network adjustment software. There are several benefits
of such a standardised format:
The following documentation has been produced to describe the SINEX (Solution
INdependent EXchange) format.
%=SNX 0.05 NRC 95:123:55260 NRC 95:113:00000 95:120:00000 P 00117 1 X E
*-------------------------------------------------------------------------------
*
* This is an annotated Sinex example, based on the first submission from
* NRC (Natural Resources Canada -- Geodetic Surveys). It has been ammended and extended
* by NCL (Dept. of Surveying, University of Newcastle-upon-Tyne) to illustrate the full
* Sinex 0.05 format. Long blocks have been truncated.
*
* The first and last lines begin '%'. Only '%', '*', '+', '-' and ' ' are
* allowed in the first column, meaning 'begin/end sinex', 'comment',
* 'start block', 'end block' and 'data line' respectively.
*
* Header line explanation:
*
* '=' Solution operator code. '=' means 'resultant' and is the
* only legal code in a header line. See INPUT/HISTORY notes.
* 'SNX' This is a Sinex document. Other formats may use similar headers.
* '0.05' Sinex version number. Version 1.00 will be established after the initial
* submission period.
* 'NRC 95:122:67080' The sinex reference for this file. Sinex files are
* referred to by the three-character agency code, and a creation time-stamp in
* yy:ddd:sssss format. Agency codes should have entries in
* INPUT/ACKNOWLEDGEMENTS.
* 'NRC 95:113:00000
* 95:120:00000' The agency responsible for the data, and the overall
* data time span. COM means multiple agencies.
* 'P' Technique code. 'P' (GPS) 'L' (SLR) 'R' (VLBI)
* 'C' (multiple) and 'M' (LLR) are allowed.
* 00117 This solution estimates 117 parameters.
* 1 Constraint code. '0' (unconstrained), '1' (loose constraints),
* '2' (tight constraints) are allowed.
* X E This solution includes coordinates and erps. 'X', 'E' and 'V' (velocities)
* are allowed.
*
*-------------------------------------------------------------------------------
* 1 2 3 4 5 6 7 8
*2345678901234567890123456789012345678901234567890123456789012345678901234567890
*-------------------------------------------------------------------------------
+FILE/REFERENCE
* This block always contains the following six records
*
DESCRIPTION Natural Resources Canada / Geodetic Surveys, altered by NCL
OUTPUT NRCan 1995 weekly solution.
CONTACT ferland@gdim.geod.emr.ca
SOFTWARE combine v0.01
HARDWARE HP 750
INPUT NRCan daily solution
-FILE/REFERENCE
*-------------------------------------------------------------------------------
+FILE/COMMENT
* This is a free-format block for notes and comments. Substantial remarks
* should go in here, not in * lines.
*
-FILE/COMMENT
*-------------------------------------------------------------------------------
+INPUT/HISTORY
* Each input solution used to create this solution is listed here. A series
* of + lines give inputs to a combination - the = code is used for the
* resultant. A '*' code denotes a similarity transformation of the previous
* solution. THe format is identical to the header line. The last line should
* always refer to this solution, i.e. match the header line.
*
*O_FM VER_ AGY TIME_STAMP__ DAT DATA_START__ DATA_END____ T PARAM C TYPE_
+SNX 0.04 NRC 95:123:52328 NRC 95:113:00000 95:114:00000 P 00081 1 X E
+SNX 0.04 NRC 95:123:52590 NRC 95:114:00000 95:115:00000 P 00082 1 X E
+SNX 0.04 NRC 95:123:52881 NRC 95:115:00000 95:116:00000 P 00082 1 X E
+SNX 0.04 NRC 95:123:53091 NRC 95:116:00000 95:117:00000 P 00076 1 X E
+SNX 0.04 NRC 95:123:53365 NRC 95:117:00000 95:118:00000 P 00073 1 X E
+SNX 0.04 NRC 95:123:53646 NRC 95:118:00000 95:119:00000 P 00079 1 X E
+SNX 0.04 NRC 95:123:53962 NRC 95:119:00000 95:120:00000 P 00082 1 X E
+SNX 0.04 NRC 95:121:59613 NRC 95:116:00000 95:117:00000 P 00039 0 X V
=SNX 0.05 NRC 95:123:55260 NRC 95:113:00000 95:120:00000 P 00117 1 X E
-INPUT/HISTORY
*-------------------------------------------------------------------------------
+INPUT/FILES
* Every sinex file referenced in INPUT/HISTORY should have a filename entered
* here. The last line of this block is always the name of the current file.
* Path names should be given meaningful aliases to keep them short!
*
*AGY TIME_STAMP__ FILE_NAME____________________ DESCRIPTION_____________________
NRC 95:123:52328 1995/w_798/EMR07980.snx NRC Daily solution
NRC 95:123:52590 1995/w_798/EMR07981.snx NRC Daily solution
NRC 95:123:52881 1995/w_798/EMR07982.snx NRC Daily solution
NRC 95:123:53091 1995/w_798/EMR07983.snx NRC Daily solution
NRC 95:123:53365 1995/w_798/EMR07984.snx NRC Daily solution
NRC 95:123:53646 1995/w_798/EMR07985.snx NRC Daily solution
NRC 95:123:53962 1995/w_798/EMR07986.snx NRC Daily solution
NRC 95:121:59613 stacomb_sinex/950426_apr.snx ITRF93 for 13 stations
NRC 95:123:55260 stacomb_sinex/EMR07987.snx Week 798 combination
-INPUT/FILES
*-------------------------------------------------------------------------------
+INPUT/ACKNOWLEDGMENTS
* Each agency three-character code used in any other block is explained here.
*
*AGY DESCRIPTION________________________________________________________________
NRC Natural Resources Canada, Geodetic surveys
NCL Newcastle AAC, University of Newcastle upon Tyne, England.
-INPUT/ACKNOWLEDGMENTS
*-------------------------------------------------------------------------------
+SITE/ID
* Each physical monument is known in Sinex by a four-character site code
* (standardised) and an alphabetic point code (arbitrary). Each CODE+PT
* is equivalent to an IERS DOMES code. Each monument estimated in the solution
* has an entry in this block. Unknown DOMES codes are represented as M or S
* following the IERS convention.
*
*CODE PT DOMES____ T STATION DESCRIPTION___ APPROX_LON_ APPROX_LAT_ _APP_H_
ALBH A 40129M003 P Albert Head, Canada 236 30 45.2 48 23 23.3 31.0
ALGO A 40104M002 P Algonquin Park, Canada 281 55 43.1 45 57 20.9 200.0
AREQ A 42202M005 P Arequipa, Peru 288 30 26.0 -16 27 55.9 2488.0
DAV1 A 66010M001 P Davis, Antartica 77 58 21.5 -68 34 38.4 96.0
DRAO A 40105M002 P Dom. RAdio Obs.,Canada 240 22 30.1 49 19 21.5 541.0
FAIR A 40408M001 P Fairbanks, U.S.A. 212 30 2.8 64 58 40.9 319.0
FORT A 41602M001 P Fortaleza, Brazil 321 34 27.8 -3 52 38.9 19.0
GOLD B 40405S031 P Goldstone, U.S.A. 243 6 38.8 35 25 30.6 986.0
GUAM A 50501M002 P Dedego, Guam 144 52 6.2 13 35 21.4 206.0
KIT3 A 12334M001 P Kitab, Uzbekistan 66 53 7.6 39 8 5.2 622.0
KOKB A 40424M004 P Kokee Park,Haw.,U.S.A. 200 20 6.3 22 7 34.6 1167.0
KOSG A 13504M003 P Kootwijk, Netherlands 5 48 34.8 52 10 42.4 96.0
MADR A 13407S012 P Madrid, Spain 355 45 1.3 40 25 45.0 829.0
MCM4 A 66001M003 P McMurdo, Antartica 166 40 31.2 -77 50 55.2 -1.0
NRC1 A M P NRC, Ottawa, Canada 284 22 30.0 45 27 15.0 82.0
KERG A 91201M002 P Kerguelen Is.,Antartic 70 15 19.9 -49 21 5.3 73.0
RCM5 A 40499S018 P Richmond, Flor. U.S.A. 279 36 57.9 25 36 49.7 -15.0
SANT A 41705M003 P Santiago, Chile 289 19 53.2 -33 9 1.1 723.0
SCHE A M P Schefferville, Canada 293 0 .0 55 0 .0 200.0
STJO A 40101M001 P St-John's, Canada 307 19 20.2 47 35 42.9 152.0
TIDB A 50103M108 P Tidbila, Australia 148 58 48.0 -35 23 57.2 665.0
TROM A 10302M003 P Tromso, Norway 18 56 18.0 69 39 45.9 132.0
TSKB A 21730S005 P Tuskuba, Japan 140 5 15.0 36 6 20.4 67.0
WETT A 14201M009 P Wettzell, Germany 12 52 44.1 49 8 39.3 666.0
YAR1 A 50107M004 P Yaragadee, Australia 115 20 49.2 -29 2 47.7 241.0
YELL A 40127M003 P Yellowknife, Canada 245 31 9.5 62 28 51.3 180.0
TAIW A 23601M001 P Taipei, Taiwan 121 32 11.6 25 1 16.8 44.0
HART A 30302M002 P Hartebeesthoek, S. A. 27 42 28.0 -25 53 13.6 1555.0
CHUR A M P Churchill, Canada 266 0 .0 59 0 .0 .0
WILL A M P Williams Lake, Canada 237 49 55.9 52 14 12.9 1097.0
-SITE/ID
*-------------------------------------------------------------------------------
+SITE/DATA
* This block contains information on the source of each station. The format
* here has changed from Sinex 0.04. Since point and solution codes are
* arbitrary, the station name (SITE+PT+SOLN codes) may be different in the
* input solution - both are given here. Stations which are estimated in
* multiple input files have several lines here.
* The information here is fictional, to illustrate the format.
* Each station is defined in SOLUTION/EPOCHS, and each file (AGY+TIME_STAMP__)
* appears in INPUT/FILES.
*
*SOLUTION____ INPUT_______
*SITE PT SOLN SITE PT SOLN T DATA_START__ DATA_END____ AGY TIME_STAMP__
ALBH A 1 ALBH B 1 P 95:113:00000 95:120:00000 NRC 95:123:52328
ALBH A 1 ALBH A 1 P 95:113:00000 95:120:00000 NRC 95:123:52590
* etc
ALGO A 1 ALGO A 1 P 95:113:00000 95:120:00000 NRC 95:123:52328
* etc
-SITE/DATA
*-------------------------------------------------------------------------------
+SITE/RECEIVER
* Here each station (SITE+PT+SOLN codes) has receiver details attached. If
* receivers change during the data span for that station, multiple lines are
* used here. These data spans must fit within the overall station span
* (given in SOLUTION/EPOCHS) and should cover the entire span for each station.
*
* Note unknown fields filled with - characters. No field is left blank.
*
*SITE PT SOLN T DATA_START__ DATA_END____ DESCRIPTION_____ S/N__ FIRMWARE_______
ALBH A 1 P 95:012:67680 00:000:00000 ROGUE SNR-8000 292 3.0.32.2
ALGO A 1 P 94:355:00000 00:000:00000 ROGUE SNR-8000 T226 3.0.32.2
* etc
-SITE/RECEIVER
*-------------------------------------------------------------------------------
+SITE/ANTENNA
*
* Here each station (SITE+PT+SOLN codes) has antenna details attached. If
* antennae change during the data span for that station, multiple lines are
* used here. These data spans must fit within the overall station span
* (given in SOLUTION/EPOCHS) and should cover the entire span for each station.
*
* Note unknown fields filled with - characters. No field is left blank.
*
* In this NRC file, there are relational problems between this block and
* the next (GPS_PHASE_CENTRE). The Description and SN fields here are
* non-unique (e.g. records 17 and 28 below refer to the 'same' antenna,
* the pco of which is given in record 13 of the following block!)
* If this is a general problem (i.e. non-unique antenna SN codes), we may
* need to introduce index numbers in this block.
*
*SITE PT SOLN T DATA_START__ DATA_END____ DESCRIPTION_____ S/N__
ALBH A 1 P 95:011:80100 00:000:00000 DORNE-MARGOLIN T 368
ALGO A 1 P 94:047:69300 00:000:00000 DORNE-MARGOLIN T 173
* etc
-SITE/ANTENNA
*-------------------------------------------------------------------------------
+SITE/GPS_PHASE_CENTER
*
* Here each antenna (DESCRIPTION + S/N fields) listed in SITE/ANTENNA has phase
* centre details attached.
*
* Note unknown fields filled with - characters. No field is left blank.
*
* UP____ NORTH_ EAST__ UP____ NORTH_ EAST__
*DESCRIPTION_____ S/N__ L1->ARP(m)__________ __L2->ARP(m)________ AZ_EL
DORNE-MARGOLIN B ----- .0780 .0000 .0000 .0960 .0000 .0000 None
DORNE-MARGOLIN B 113 .0780 .0000 .0000 .0960 .0000 .0000 None
DORNE-MARGOLIN B 119 .0780 .0000 .0000 .0960 .0000 .0000 None
DORNE-MARGOLIN R ----- .0780 .0000 .0000 .0960 .0000 .0000 None
DORNE-MARGOLIN R 2 .0780 .0000 .0000 .0960 .0000 .0000 None
DORNE-MARGOLIN R 3 .0780 .0000 .0000 .0960 .0000 .0000 None
DORNE-MARGOLIN R 10 .0780 .0000 .0000 .0960 .0000 .0000 None
DORNE-MARGOLIN R 95 .0780 .0000 .0000 .0960 .0000 .0000 None
DORNE-MARGOLIN R 96 .0780 .0000 .0000 .0960 .0000 .0000 None
DORNE-MARGOLIN T ----- .1100 .0000 .0000 .1280 .0000 .0000 None
DORNE-MARGOLIN T 105 .1100 .0000 .0000 .1280 .0000 .0000 None
DORNE-MARGOLIN T 119 .1100 .0000 .0000 .1280 .0000 .0000 None
DORNE-MARGOLIN T 148 .1100 .0000 .0000 .1280 .0000 .0000 None
DORNE-MARGOLIN T 154 .1100 .0000 .0000 .1280 .0000 .0000 None
DORNE-MARGOLIN T 171 .1100 .0000 .0000 .1280 .0000 .0000 None
DORNE-MARGOLIN T 172 .1100 .0000 .0000 .1280 .0000 .0000 None
-SITE/GPS_PHASE_CENTER
*-------------------------------------------------------------------------------
+SITE/ECCENTRICITY
*
* Here each station (SITE+PT+SOLN codes) has eccentricity vectors attached. If
* these change during the data span for that station, multiple lines are
* used here. These data spans must fit within the overall station span
* (given in SOLUTION/EPOCHS) and should cover the entire span for each station.
*
* UP______ NORTH___ EAST____
*SITE PT SOLN T DATA_START__ DATA_END____ AXE ARP->BENCHMARK(m)_________
ALBH A 1 P 95:011:80100 00:000:00000 UNE .1000 .0000 .0000
ALGO A 1 P 94:139:00000 00:000:00000 UNE .1000 .0000 .0000
* etc
-SITE/ECCENTRICITY
*-------------------------------------------------------------------------------
+SOLUTION/EPOCHS
*
* This block is the logical starting-point for interpreting the file, since it
* defines the stations in the solution. A station is particular solution for
* a monument, referenced by SITE, PT and SOLN codes. Multiple integer solution
* codes may be used (arbitrarily) to give multiple solutions for a point in the
* same estimate - at different epochs, for instance.
*
* Each station invoked here should have one or more entries in each of
* SITE/RECEIVER, SITE/ANTENNA, SITE/DATA and SITE/ECCENTRICITY.
* The monument (SITE+PT) should be defined in SITE/ID.
*
*SITE PT SOLN T _DATA_START_ __DATA_END__ _MEAN_EPOCH_
ALBH A 1 P 95:113:00000 95:120:00000 95:116:43200
ALGO A 1 P 95:113:00000 95:120:00000 95:116:43200
* etc
-SOLUTION/EPOCHS
*-------------------------------------------------------------------------------
+SOLUTION/ESTIMATE
*
* The parameter estimates are written here. Parameter types STAX, STAY, STAZ,
* VELX, VELY, VELZ (coordinate and velocity x, y, z) are followed by a
* station reference. Erp types LOD, UT, XPO, YPO have no station. The
* constraint code (0, 1 or 2) is given here for each parameter - the empty
* fields are filled with a data-not-given character (-). Units:
* XPO mas (milli-arc seconds) X POLE MOTION
* YPO mas (milli-arc seconds) Y POLE MOTION
* XPOR ma/s (milli-arc seconds/s) X POLE RATE
* YPOR ma/s (milli-arc seconds/s) Y POLE RATE
* UT ms (milli-seconds) UT1-UTC
* LOD ms (milli-seconds) UT1-UTC RATE
*
*INDEX TYPE CODE PT SOLN _REF_EPOCH__ UNIT S __ESTIMATED VALUE___ _STD_DEV______
1 STAX ALBH A 1 95:116:43200 m 2 -.234133292758691E+7 .1845776905E-2
2 STAY ALBH A 1 95:116:43200 m 2 -.353904953122971E+7 .1890911219E-2
3 STAZ ALBH A 1 95:116:43200 m 2 .4745791466277621E+7 .2075918818E-2
4 STAX ALGO A 1 95:116:43200 m 1 .9181294929904674E+6 .1768625434E-2
5 STAY ALGO A 1 95:116:43200 m 1 -.434607120901217E+7 .1797731140E-2
6 STAZ ALGO A 1 95:116:43200 m 1 .4561977840428489E+7 .1878956710E-2
7 STAX AREQ A 1 95:116:28800 m 2 .1942826687525561E+7 .6477347581E-2
8 STAY AREQ A 1 95:116:28800 m 2 -.580407019776578E+7 .8829387992E-2
9 STAZ AREQ A 1 95:116:28800 m 2 -.179689395509440E+7 .3872643191E-2
10 STAX CHUR A 1 95:119:00000 m 2 -.236438707221352E+6 .2190659023E-2
11 STAY CHUR A 1 95:119:00000 m 2 -.330761674613259E+7 .2499980216E-2
12 STAZ CHUR A 1 95:119:00000 m 2 .5430049170384845E+7 .3338507720E-2
13 STAX DAV1 A 1 95:113:43200 m 2 .4868545524273632E+6 .5143560198E-2
14 STAY DAV1 A 1 95:113:43200 m 2 .2285099364466271E+7 .5465295936E-2
15 STAZ DAV1 A 1 95:113:43200 m 2 -.591495576584752E+7 .8718856714E-2
16 STAX DRAO A 1 95:116:43200 m 2 -.205916467723249E+7 .1818058836E-2
17 STAY DRAO A 1 95:116:43200 m 2 -.362110834605865E+7 .1859042797E-2
18 STAZ DRAO A 1 95:116:43200 m 2 .4814432386809346E+7 .2053716886E-2
19 STAX FAIR A 1 95:116:43200 m 0 -.228162142409438E+7 .2008781156E-2
20 STAY FAIR A 1 95:116:43200 m 0 -.145359574941003E+7 .2100198773E-2
21 STAZ FAIR A 1 95:116:43200 m 0 .5756961936406008E+7 .2509140868E-2
22 STAX FORT A 1 95:115:21600 m 2 .4985386578502384E+7 .1084655739E-1
23 STAY FORT A 1 95:115:21600 m 2 -.395499854274894E+7 .9229132687E-2
24 STAZ FORT A 1 95:115:21600 m 2 -.428426474252779E+6 .2879426693E-2
25 STAX GOLD B 1 95:116:43200 m 1 -.235361417310070E+7 .2060113719E-2
26 STAY GOLD B 1 95:116:43200 m 1 -.464138536535744E+7 .2135362677E-2
27 STAZ GOLD B 1 95:116:43200 m 1 .3676976474604919E+7 .2151652969E-2
28 STAX GUAM A 1 95:116:43200 m 2 -.507131279252173E+7 .3359775222E-2
29 STAY GUAM A 1 95:116:43200 m 2 .3568363515536474E+7 .3434317006E-2
30 STAZ GUAM A 1 95:116:43200 m 2 .1488904271291384E+7 .2465369172E-2
31 STAX HART A 1 95:117:28800 m 0 .5084625439996016E+7 .3117434937E-2
32 STAY HART A 1 95:117:28800 m 0 .2670366550990838E+7 .2988406484E-2
33 STAZ HART A 1 95:117:28800 m 1 -.276849396332954E+7 .2436794798E-2
34 STAX KERG A 1 95:116:43200 m 2 .1406337354635808E+7 .3228912790E-2
35 STAY KERG A 1 95:116:43200 m 2 .3918161143630010E+7 .3090251696E-2
36 STAZ KERG A 1 95:116:43200 m 2 -.481616739541420E+7 .2887894904E-2
37 STAX KIT3 A 1 95:116:00000 m 2 .1944945408967126E+7 .3880638482E-2
38 STAY KIT3 A 1 95:116:00000 m 2 .4556652228809900E+7 .4395018442E-2
39 STAZ KIT3 A 1 95:116:00000 m 2 .4004325952269760E+7 .4075488675E-2
* etc
91 LOD ---- -- 1 95:113:43200 ms 2 .2871055744817214E+1 .1212729066E-1
92 LOD ---- -- 2 95:114:43200 ms 2 .2959652540110830E+1 .1131045636E-1
93 LOD ---- -- 3 95:115:43200 ms 2 .2973492029661421E+1 .1201761141E-1
* etc
98 UT ---- -- 1 95:114:43200 ms 2 .8722024405764063E+2 .1318171995E-1
99 UT ---- -- 2 95:115:43200 ms 2 .8430515991559695E+2 .1575504990E-1
100 UT ---- -- 3 95:116:43200 ms 2 .8136510032786199E+2 .1745336183E-1
* etc
104 XPO ---- -- 1 95:113:43200 mas 2 .1029608387361842E+3 .7876117908E-1
105 XPO ---- -- 2 95:114:43200 mas 2 .1069725602672064E+3 .7569313943E-1
106 XPO ---- -- 3 95:115:43200 mas 2 .1113899879374726E+3 .7622913583E-1
* etc
111 YPO ---- -- 1 95:113:43200 mas 2 .5530926512007116E+3 .9289514438E-1
112 YPO ---- -- 2 95:114:43200 mas 2 .5521110887312243E+3 .8795571011E-1
113 YPO ---- -- 3 95:115:43200 mas 2 .5512599272862197E+3 .8666021180E-1
* etc
-SOLUTION/ESTIMATE
*-------------------------------------------------------------------------------
+SOLUTION/APRIORI
*
* The same format as the previous block, but parameters given, and their
* order, can be different.
*
* ITRF93(1995.318) coord. constraints for the 13 stations applied (ITRF SSC+
* SSV sigmas used, responsible for correlation in APRIORI matrix)
*
*INDEX TYPE CODE PT SOLN REF_EPOCH___ UNIT S __ESTIMATED VALUE___ _STD_DEV______
1 STAX ALGO A 1 95:116:43200 m 2 .91812950316301E+06 .300264598E-02
2 STAY ALGO A 1 95:116:43200 m 2 -.43460712286616E+07 .300413333E-02
3 STAZ ALGO A 1 95:116:43200 m 2 .45619778480795E+07 .300413333E-02
4 STAX FAIR A 1 95:116:43200 m 2 -.22816214309794E+07 .300148865E-02
5 STAY FAIR A 1 95:116:43200 m 2 -.14535957605986E+07 .300264598E-02
6 STAZ FAIR A 1 95:116:43200 m 2 .57569619418178E+07 .300264598E-02
* etc
40 VELX ALGO A 1 95:116:43200 m/y 2 -.21700000000000E-01 .400000000E-03
41 VELY ALGO A 1 95:116:43200 m/y 2 -.21000000000000E-02 .500000000E-03
42 VELZ ALGO A 1 95:116:43200 m/y 2 .66000000000000E-02 .500000000E-03
* etc
-SOLUTION/APRIORI
*-------------------------------------------------------------------------------
+SOLUTION/MATRIX_ESTIMATE L CORR
* Lower triangular correlation matrix elements, referenced by two parameter
* index numbers from SOLUTION/ESTIMATE, are given here. Elements not given are
* taken from the identity matrix.
*
*PARA1 PARA2 ____PARA2+0_________ ____PARA2+1_________ ____PARA2+2_________
1 1 .10000000000000E+01
2 1 .29425156137028E-01 .10000000000000E+01
3 1 -.26004023015799E+00 -.28793741628090E+00 .10000000000000E+01
4 1 .54687523972711E+00 -.65452884277258E-01 -.43204669126067E-01
4 4 .10000000000000E+01
5 1 -.39819911260492E-01 .40433299131131E+00 .11136939059432E+00
5 4 -.50106659384620E-02 .10000000000000E+01
6 1 -.35321953180784E-01 .14019789950983E+00 .42813765846990E+00
6 4 .49918344878102E-01 -.26545148121353E+00 .10000000000000E+01
7 1 .69393516209264E-01 -.50927698251188E-01 -.18770770478848E-02
7 4 .11249919556344E+00 .36417010197355E-01 -.96512409551535E-02
*..................2290 lines deleted .....................................
117 1 .39554853137016E-02 -.14701327842692E+00 -.21849261652602E+00
117 4 .61854528268407E-01 -.15582766664907E+00 -.35595192513222E+00
117 7 -.14839162033233E-01 .10088643393429E-01 -.34620521010973E+00
117 10 .24473678103268E-01 -.17719246220580E+00 -.11471841650685E+00
117 13 .13124059834379E-01 .19447280189975E+00 .55372167099218E-01
117 16 .11834483725591E-01 -.15394348548100E+00 -.23577099430936E+00
117 19 -.69920935880248E-02 -.15152016672011E+00 -.15707791358241E-01
117 22 .56262209482092E-02 .44664432377454E-01 -.29206116099859E+00
117 25 .13595733163360E-01 -.36791832813222E-01 -.34302028599229E+00
117 28 .49976730750360E-01 -.52603056350601E-02 .35995661727203E+00
117 31 .58434167118809E-01 .79162912401483E-01 .19036198391000E+00
117 34 .18742319369700E-01 .29877748842137E+00 .27423619442271E+00
117 37 .37293677828651E-01 -.26370207939877E-01 .28314439940865E+00
117 40 -.15793512947600E-01 .16902050747741E-01 -.68991757800683E-01
117 43 .13839204459350E-01 -.90319568728349E-01 .87241280008327E-01
117 46 .17373506530565E-02 .75995410738772E-02 -.22097307167853E-01
117 49 -.31558372465614E-02 .33086324692108E+00 -.21155116202680E-01
117 52 .52662048663150E-01 -.96698061270683E-01 -.38697065241955E+00
117 55 .17854027402451E-01 .45413441850211E-01 -.39199818754031E+00
117 58 -.20557084589204E-01 .17772427521895E+00 -.38888132782579E+00
117 61 .51717169153988E-01 -.12774683850231E+00 -.18640329670510E+00
117 64 .60566764029226E-01 -.96756801702711E-01 -.31097880769930E+00
117 67 .15946573701026E-01 -.52959490859687E-01 .43877479729634E+00
117 70 -.56965234511833E-01 .12258278357446E+00 .20637613018780E+00
117 73 .10379256768073E-01 -.13337986646258E+00 .34656771257246E-01
117 76 .45650296192972E-01 -.14097331082148E+00 .31904369696173E+00
117 79 -.15366288987877E-01 -.76872083582857E-01 .14681131961463E+00
117 82 -.71521817107470E-02 -.14261694699670E+00 -.12950060100137E+00
117 85 -.46279787222485E-01 .17675785161574E+00 .43321519299327E+00
117 88 .17270566844414E-02 -.17956461690783E+00 -.95965022007633E-01
117 91 .67279754048700E-02 .17105290276520E-01 .96879240353699E-02
117 94 .46879651728024E-02 .15162522246501E-02 .16405537485657E-01
117 97 -.33487318865767E-01 -.15479070213606E-01 -.17088921255237E-01
117 100 -.10651453627699E-01 -.97673708447794E-02 -.44763578708339E-02
117 103 -.10868132563959E-01 .55392984612278E-01 .38519367197329E-01
117 106 .56288295168491E-01 .61044503649448E-01 .62180451664303E-01
117 109 .48458825773687E-01 .64903577511731E-01 .46603628193206E+00
117 112 .50888540957265E+00 .49512938569870E+00 .49390806153475E+00
117 115 .49291348118876E+00 .51840633003163E+00 .10000000000000E+01
-SOLUTION/MATRIX_ESTIMATE L CORR
*-------------------------------------------------------------------------------
+SOLUTION/MATRIX_APRIORI L CORR
*
* Same format as SOLUTION/MATRIX_ESTIMATE, but a priori values. Again, elements
* not given are taken from the identity matrix.
*
* Correlations due to velocity sigma propagation
*
*PARA1 PARA2 ____PARA2+0_________ ____PARA2+1_________ ____PARA2+2_________
1 1 .10000000000000E+01
2 2 .10000000000000E+01
3 3 .10000000000000E+01
* etc
40 1 .41972113240929E-01
40 40 .10000000000000E+01
41 2 .52439166139985E-01
* etc
-SOLUTION/MATRIX_APRIORI L CORR
*-------------------------------------------------------------------------------
%ENDSNX
Back to Chapter 9 Contents
/ Next Topic / Previous Topic
© Chris Rizos, SNAP-UNSW, 1999