ࡱ> ` "bjbjss3>fffffff 0.0.0.0.L.L7.....///E7G7G7G7G7G7G7$|8h:~k7f/////k7ff..7!1!1!1/Ff.f.E7!1/E7!1!1ff!1.. `?50./^!1A1707!1b;#0b;!1b;f!1 !1///k7k7 1///7////0.0.z$6ffffff Standardized Data Formats FormatDescriptionVersionASCII/ BinaryTypeIGSILRSIVSIDSRINEXReceiver Independent Exchange format that can accommodate GNSS data (GPS, GLONASS, future Galileo). Seven main file types: C (satellite and receiver clock), D (Hatanaka compressed GNSS observation data) G (GLONASS broadcast ephemeris), H (GEO broadcast ephemeris) M (meteorological), N (GPS broadcast ephemeris), O (GNSS observation data). Each file type consists of a header and data section which contains information for the entire file. Each file contains the data from one receiver and one session (e.g., day, hour, sub-hour). Observables are: time, pseudo-range, phase, and Doppler. ftp://igscb.jpl.nasa.gov/pub/data/format/rinex210.txt ftp://igscb.jpl.nasa.gov/pub/data/format/rinex211.txt ftp://igscb.jpl.nasa.gov/pub/data/format/rinex300.txt2.10, 2.11 3.0 (F)ADXHatanakaCompression format used with RINEX observation data files ftp://terras.gsi.go.jp/software4.0.ADXNPTNormal point format. Data are sampled over time based upon the presence of some minimum number of data points in the sampling interval Data record contains data from one station and one pass segment. Pass segment consists of a header record followed by data records. http://ilrs.gsfc.nasa.gov/products_formats_procedures/normal_point/np_format.html2ADXFRFull-rate format. he full-rate data are sorted by satellite and time and are available in daily and monthly increments. http://ilrs.gsfc.nasa.gov/products_formats_procedures/fullrate/fr_format_v3.html3ADXCRDConsolidated Laser Ranging Data format under development. An integrated, flexible, extensible format for the ILRS full-rate, sampled engineering, and normal point data. Will accommodate transponder data and to handle high repetition rate laser data without unnecessary redundancy. File consists of header, configuration, and data records from one satellite and one session (hourly, daily, monthly). http://ilrs.gsfc.nasa.gov/products_formats_procedures/crd.html0.26AXCPFConsolidated Prediction Format. The CPF information accurately predicts positions and ranges for a much wider variety of laser ranging targets than had been previously possible. CPF files include daily tables of X, Y, and Z positions for each target which can then be interpolated for very accurate predictions. CPF provides an expanded format capability and greatly improves tracking on low satellites because the full modeling potential of the orbit computation at the prediction center will be passed on to the stations. http://ilrs.gsfc.nasa.gov/products_formats_procedures/predictions/cpf.html1.01APXSINEXSoftware Independent Exchange Format. General-purpose solution exchange format for space geodesy that facilitates the task of combining solutions. SINEX was designed to be modular and general enough to handle multiple techniques. It provides complete information on a priori information that can be removed when required, making it unnecessary to submit or distribute multiple SINEX solution files, e.g. constrained and unconstrained (free) solution files. Also used for VLBI experiment data. http://ilrs.gsfc.nasa.gov/products_formats_procedures/predictions/cpf.html2.01APXXXXSPStandard Product (for orbits) for all satellite types. The basic format is a position and clock record; a second, optional, record contains velocities and clock rates-of-change. Also includes satellite clock corrections, orbit accuracy exponents, comment lines, as many as three different sets of satellite position accuracy indicators. ftp://igscb.jpl.nasa.gov/pub/data/format/sp1.pdf ftp://igscb.jpl.nasa.gov/pub/data/format/sp3c.txtSP3c, SP1AXX (F)XIONEXIonosphere Exchange format. A common data format to exchange, compare, or combine TEC maps. Supports the exchange of 2- and 3-dimensional TEC maps given in a geographic grid. ftp://igscb.jpl.nasa.gov/pub/data/format/ionex1.pdf1APXSite logInformation organized by section describing sites used by analysts in reducing data. Information includes site IDs, location, coordinates/eccentricities, surveys, co-location, instrument information, site ownership, etc. ftp://igscb.jpl.nasa.gov/pub/station/general/blank.log ftp://cddis.gsfc.nasa.gov/reports/slrlog/slr_blank.txt ftp://ivscc.gsfc.nasa.gov/pub/config/ns-config.txtAOXXXXANTEXContain information for GNSS satellite and receiver antennas, including phase center offsets. ftp://igscb.jpl.nasa.gov/pub/station/general/antex13.txt1.3AOXTropo SINEXFormat based on SINEX for the series of total zenith path delay transformed to precipitable water vapor. ftp://igscb.jpl.nasa.gov/pub/data/format/sinex_tropo.txt0.01APXERPftp://igscb.jpl.nasa.gov/pub/data/format/erp.txt2APXGSFC DBGoddard VLBI database format. The VLBI database is a binary format for archiving and handling geodetic/astrometric observables delay and delay rate generated by fringe-fitting algorithms from raw correlator output. Developed for the CALC/SOLVE data analysis system, the files also contain other generated outputs such as correlation coefficients, fringe amplitudes and total phases; cable calibration and station weather information; theoretical observables and parameter partial derivatives (from CALC); and editing and ambiguities (from SOLVE). http://gemini.gsfc.nasa.gov/solve/8.8.89BDXNGS CardNGS format for VLBI data transfer. Partial ASCII transcription of a Goddard database file. This format is being used by VLBI analysis packages such as Modest, Occam, and SteelBreeze. http://lacerta.gsfc.nasa.gov/mk5/help/dbngs_format.txtADXBaseline lengthTime series of baseline lengths consisting of downloadable baseline length results, including graphs and statistics, for a chosen baseline. An automatic script computes the information online from the submissions of six participating Analysis Centers as well as a combined solution. The data, residual, and plot files for all seven time series can be downloaded for further analysis. http://vlbi.geod.uni-bonn.de/baseline-project/APXDORIS dataStandard exchange format for range-rate observations; DORIS-specific. ftp://ftp.cls.fr/pub/ids/data/doris21.fmt2.1ADXSTCDStation Coordinate Difference format for time series of coordinates expressed at a reference epoch. Provides coordinate time-series results in both Cartesian and ellipsoidal coordinates. Coordinate time-series consist of residuals relative to a reference position. Each coordinate of the series is assumed to be expressed in the same reference system as at the observation epoch. http://ids.cls.fr/documents/report/CB_STCD_format_v1.0.pdf1.0ADX A=ASCII P=Product B=Binary O=Other D=Data F=Future [ P T U ] _ j B N c 'e+b  eyncXh.hBO+CJaJ h.hBO+CJaJ$h@ZXhBO+CJaJ0h.hBO+CJaJ0h@ZXhBO+CJaJh.hBO+CJaJh@ZXhBO+CJaJhBO+hh"hBO+CJaJhh"hBO+CJh.hBO+CJaJ hCJh@ZXhBO+B*CJphh@ZXhBO+CJh.hBO+5CJh.hBO+CJh.hBO+5 ".6=DIMRVZ[a  Q \ d f h j k l $IfgdBO+Ff $$Ifa$gdBO+gdBO+$a$gdBO+"l m n w B D F H I K L M N Q FfY Ff $IfgdBO+Ff $$Ifa$gdBO+Q !"$%&'+ b$1$7$8$H$IfgdBO+FfFf% $$Ifa$gdBO+ $IfgdBO+bgiklnopqweI{Ff $IfgdBO+Ff $$Ifa$gdBO+eHIzI|p?w#$0S%&)89RYc3GD m "@"A"B"C"E"F"G"Z"l"~""gdBO+FfM3 $IfgdBO+Ff0 $$Ifa$gdBO+F"N"Y"b"k"r"}"" hBO+CJh.hBO+CJ10:pBO+= /!"#$% $$If!v h5555`5B5555 #v#v#v#v`#vB#v :VH t86, 5555`5B5 / 4 Hkd$$IfH X$((,j.0z368`B t086$$$$44 Ha$$If!v h5555`5B5555 #v#v#v#v`#vB#v :VH t865555`5B5 / 4 Hkd$$IfH X$((,j.0z368`B t086$$$$44 Ha$$If!v h5555`5B5555 #v#v#v#v`#vB#v :VH t865555`5B5 4 Hkd$$IfH X$((,j.0z368`B t086$$$$44 Ha$$If!v h5555`5B5555 #v#v#v#v`#vB#v :VH t865555`5B5 4 Hkd$$IfH X$((,j.0z368`B t086$$$$44 Ha$$If!v h5555`5B5555 #v#v#v#v`#vB#v :VH t865555`5B5 4 HkdR $$IfH X$((,j.0z368`B t086$$$$44 Ha$$If!v h5555`5B5555 #v#v#v#v`#vB#v :VH t865555`5B5 4 Hkd$$IfH X$((,j.0z368`B t086$$$$44 Ha$$If!v h5555`5B5555 #v#v#v#v`#vB#v :VH t865555`5B5 4 Hkd$$IfH X$((,j.0z368`B t086$$$$44 Ha$$If!v h5555`5B5555 #v#v#v#v`#vB#v :VH t865555`5B5 4 Hkd$$IfH X$((,j.0z368`B t086$$$$44 Ha$$If!v h5555`5B5555 #v#v#v#v`#vB#v :VH t865555`5B5 4 Hkd$$IfH X$((,j.0z368`B t086$$$$44 Ha$$If!v h5555`5B5555 #v#v#v#v`#vB#v :VH t865555`5B5 4 HkdN$$IfH X$((,j.0z368`B t086$$$$44 Ha$$If!v h5555`5B5555 #v#v#v#v`#vB#v :VH t865555`5B5 4 Hkd$$IfH X$((,j.0z368`B t086$$$$44 Ha$$If!v h5555`5B5555 #v#v#v#v`#vB#v :VH t865555`5B5 4 Hkd$$IfH X$((,j.0z368`B t086$$$$44 Ha$$If!v h5555`5B5555 #v#v#v#v`#vB#v :VH t865555`5B5 4 Hkd!$$IfH X$((,j.0z368`B t086$$$$44 Ha$$If!v h5555`5B5555 #v#v#v#v`#vB#v :VH t865555`5B5 4 Hkd~$$$IfH X$((,j.0z368`B t086$$$$44 Ha$$If!v h5555`5B5555 #v#v#v#v`#vB#v :VH t865555`5B5 4 HkdJ'$$IfH X$((,j.0z368`B t086$$$$44 Ha$$If!v h5555`5B5555 #v#v#v#v`#vB#v :VH t865555`5B5 4 Hkd*$$IfH X$((,j.0z368`B t086$$$$44 Ha$$If!v h5555`5B5555 #v#v#v#v`#vB#v :VH t865555`5B5 4 Hkd,$$IfH X$((,j.0z368`B t086$$$$44 Ha$$If!v h5555`5B5555 #v#v#v#v`#vB#v :VH t865555`5B5 4 Hkd/$$IfH X$((,j.0z368`B t086$$$$44 Ha$$If!v h5555`5B5555 #v#v#v#v`#vB#v :VH t865555`5B5 4 Hkdz2$$IfH X$((,j.0z368`B t086$$$$44 Ha@@@ StandardCJaJmH sH tH JA@J Absatz-StandardschriftartXi@X Normale Tabelle4 l4a 0k0 Keine Listez@z .Tabellengitternetz7:V00U@0 @ZX Hyperlink>*B*>!v!v {S)".6=DIMRVZ[aQ\dfhjklmnwBDFHIKLMNQ!"$%&'+  b g i k l n o p q w e I{I}p%?x}!"#%&'0!#$%'()9Dnrtvwxy{|8<>@ABCEFGZl~@8@8v:v:v:`v:v:v:v:v:v:v:v:tv:v:v:v:v:`v:`v:v:v:v:v:v:v:Hv:v:v:`v:v:v:v:v:v:v:tv:v:v:`v:v:v:v:v:v:v:v:v:v:`v:v:v:v:v:v:v:`v:v:v:`v:v:v:v:v:v:v:^ v:v:v:`v:v:v:v:v:v:v:7v:v:v:`v:v:v:v:v:v:v:7v:v:v:`v:v:v:v:v:v:v:v:v:v:`v:v:v:v:v:v:v:`v:v:v:v:v:`v:v:v:v:v:v:v:^ v:v:v:`v:v:v:v:v:v:v:tv:v:v:`v:v:v:v:v:v:v:`v:v:`v:v:v:v:v:v:v:u:v:v:v:`v:v:v:v:v:v:v:7v:v:v:`v:v:v:v:v:v:v:`v:v:v:`v:v:v:v:v:v:v:K$ v:v:v:`v:v:v:v:v:v:v:tv:v:v:`v:v:v:v:v:v:v:K$ @8v:@8v:@8v:@8v:@8v:".6=DIMRVZ[aQ\dfhjklmnwBDFHIKLMNQ!"$%&'+  b g i k l n o p q w e I{I}p%?x}!"#%&'0!#$%'()9Dnrtvwxy{|8<>@ABCEFGZl~0000 0 00 0 0 0 0 0 000000 00 0 0 0 0 0 0 0000 0 0 0 0 0 0 0 0000 0 0 0 0 0 0 0 0000 0 0 0 0 0 0 0 0000 0 0 0 0 0 0 0 0000 0 0 0 0 0 0 0 0000 0 0 0 0 0 0 0 00000 0 0 0 0 0 0 0 0000 0 0 0 0 0 0 0 000000 0 0 0 0 0 0 0 0000 0 0 0 0 0 0 0 0000 0 0 0 0 0 0 0 000 0 0 0 0 0 0 0 0000 0 0 0 0 0 0 0 0000 0 0 0 0 0 0 0 0000 0 0 0 0 0 0 0 0000 0 0 0 0 0 0 0 0 000 0 0 0 0 0 0 0 000000eF""l Q bw ""8@0(  B S  ?\_%10Skn\cce0S::::::a\cBQ+ b w {}%x09n8~\_BO+".6DIMRVZ[aQdfhjklmnwBDFHIKLMNQ!"$%&'+ b g i k l n o p q w {}%x}!"#%&'0!#$%'()9nrtvwxy{|8<>@ABCEF@ ____0@UnknownGz Times New Roman5Symbol3& z Arial Ah &&f 0 0!24drr! 3qP <2Standardized Data Formats Carey NollRichterOh+'0z   @ L X dpxStandardized Data Formats Carey Noll Normal.dotRichter3Microsoft Office Word@Ik@2̮1@5@Ȳ5Gxx$mVT  ,<  .@Times New Roman-@Times New Roman-- 12  Standardized Data Formatsi8!2882,8,,8H2!2<2-R3!'- 2 6 & 2 , %@Times New Roman-2 dFormat3*&C* 2 d *2 ( hDescription<% %%.*. 2  h +2 (Versiona<%% *. 2 ( +2 P_,ASCII/<.<!  2 P], .2 c,Binary8.*%* 2 Y, )2 Type7*.% 2 d +2 IGS A. 2 Q +2 ILRS 7=. 2 y +2 IVS <. 2 k +2 IDS <. 2 y +- @ ! -- @ ! -- @ !T-- @ !d-- @ ! h-- @ !-- @ !-- @ !(-- @ !d,-- @ !-- @ !-- @ !-- @ ! -- @ !-- @ ! -- @ !-- @ ! -- @ !-- @ ! -- @ !-- @ !-- @ ! -- @ !d-- @ !-- @ !(-- @ !-- @ !-- @ !-- @ !-- @ !-- @ !--2 ,dRINEXy7<3< 2 *d +2 ShReceiver Independent Exchange format that can accommodate GNSS data (GPS, GLONASS, 7%%%)%)*%*%)*&)3)&)&*)%*?&)%%&)%%%+@@**%%<<..*%%</.<2<=<..}2 zLhfuture Galileo). Seven main file types: C (satellite and receiver clock), D *)%<%%*.&)%)@%)%(*% 7 %&%&)*%%%*%%*%)<+2 z h(Hatanaka compressed <%%)%)%%+?*% %*2 VhGNSS observation data) G (GLONASS broadcast ephemeris), H (GEO broadcast ephemeris) M <<..** %)%+)*%%<<2<=<..**%*%% %*)&?% <<3<**$*%% %*)&?& J2 :Yh(meteorological), N (GPS broadcast ephemeris), O (GNSS observation data). Each file type ?%%***)%%<</.*)%*%% %*)&?% <<<..** %)%*)*%%3%%)%**%e2 <hconsists of a header and data section which contains informa%*) ! *%)%%*%%)**%% %%*);)&)%*)&* **?&C2 h %htion for the entire file. Each file *)*)%&)%%3%%)%y2 Ihcontains the data from one receiver and one session (e.g., day, hour, sub %*)%* )%*%%+?*)%%&%)%%)**)% & +)%)*%))*)!)* 2  h-/2  hhour). Observables are: )*)<* %)%*& %%2 Z htime, pseudo?%* &)** 2 Z.h-22 ZIhrange, phase, and Doppler.%*)%*)% %%**<***% 2 Zh $[2 5hftp://igscb.jpl.nasa.gov/pub/data/format/rinex210.txt*) %**)% %)+)*)**&%*?%)&)***) 2 U h &42 hftp://igscb.jpl.nasa.gov/pu*) %**)% %)+)*)22 hb/data/format/rinex211.txt**&%*?%)&)***) 2 U h &[2 y5hftp://igscb.jpl.nasa.gov/pub/data/format/rinex300.txt*) %**)% %)+)*)**&%*?%)&)***) 2 yU h +2 (2.1** 2 (0*2 D(, 2.1y*) 2 (1* 2 ( $ 2 z(3* 2 z(. 2 z%(0*2 zO( (F). 2 z( ) 2 ,A; 2 , + 2 D< 2 ( * 2 X< 2 ( * 2  * 2 & * 2 4 *- @ !  -- @ !T-- @ !T-- @ !d-- @ ! d-- @ ! d-- @ ! p-- @ ! p-- @ !-- @ ! -- @ ! -- @ !-- @ !-- @ !(-- @ ! (-- @ ! (-- @ !\4-- @ !\4-- @ !-- @ ! -- @ ! -- @ !-- @ !-- @ !-- @ ! -- @ ! -- @ !-- @ !-- @ !-- @ ! -- @ ! -- @ !-- @ !-- @ !-- @ ! -- @ ! -- @ !-- @ !-- @ !-- @ ! -- @ ! -- @ !-- @ !-- @ ! -- @ ! -- @ !d-- @ !-- @ !(-- @ !-- @ !-- @ !-- @ !-- @ !-- @ !-2 ,dHatanaka<%%)&)% 2 fd +a2 9hCompression format used with RINEX observation data filesr7+?*% !*)*@%* %*;)7<3<** %)%+)*%%& 2 v h %:2 <hftp://terras.gsi.go.jp/software*%% ) )** *:%% 2 <Hh +2 (4.0.** 2 ( ) 2 ,A; 2 , + 2 D< 2 ( * 2 X< 2 ( * 2  * 2 & * 2 4 *- @ ! -- @ !T-- @ !d-- @ ! h-- @ !-- @ !-- @ !(-- @ !d,-- @ !-- @ !-- @ !-- @ ! -- @ !-- @ ! -- @ !-- @ ! -- @ !-- @ ! -- @ !-- @ ! -- @ !d-- @ !-- @ !(-- @ !-- @ !-- @ !-- @ !-- @ !-- @ !-2 ,dNPT<.4 2 d )+2 hNormal point format. e<*?&**)*@%2 _ hData are <%%%%b2 :hsampled over time based upon the presence of some minimum &?*%**)%?%*% %*)**))%*% &)%%* +@%?)A*?P2 .hnumber of data points in the sampling interval)*@*%**%%**) ))%!&?**))%)&Y2  4h Data record contains data from one station and one <%%%%**$*)%* *%%+?*)% %*)%)**)%2 `Qhpass segment. Pass segment consists of a header record followed by data records.s*%  %*@&)/%  &*@%)&*) ! *%)%%*%%%*)*+:%*+(*%%%%**  2 `-h $&2 hhttp://ilrs.gsfc.n)* * %)j2 ?hasa.gov/products_formats_procedures/normal_point/np_format.html% %)*)****% **?% ***%%*)% )*@%***))***?%)@ 2 }h + 2 C(2* 2 m( * 2 ,A; 2 , + 2 D< 2 ( * 2   * 2 X< 2 6 * 2 & * 2 4 *- @ !Q -- @ !TQ-- @ !Qd-- @ ! Qh-- @ !Q-- @ !Q-- @ !Q(-- @ !dQ,-- @ !Q-- @ !Q-- @ !Q-- @ ! Q-- @ !Q-- @ ! Q-- @ !Q-- @ ! Q-- @ !Q-- @ ! Q-- @ !Q-- @ !U -- @ !Ud-- @ !U-- @ !U(-- @ !U-- @ !U-- @ !U-- @ !U-- @ !U-- @ !U-2 $ ,dFR.7 2 $ d +2 $ hFull.) 2 $ h-2 $ % hrate format. %%*?%2 $ hhe fulla)%) 2 $ h-z2 $ Jhrate data are sorted by satellite and time and are available in daily and %%*%%%% *%**( %%%&)*?%%)*%%%)%%*%)*%(%)*@Times New Roman---(2 hmonthly increments.?+))))%&@&) - 2 0h  2 Ih .-_2 8hhttp://ilrs.gsfc.nasa.gov/products_formats_procedures/fu)* * %)% %)*)****% **?% ***%%*)% )/2 hllrate/fr_format_v3.html%%**?%+)*)@ 2 h + 2 $ C(3* 2 $ m( * 2 $ ,A; 2 $ , + 2 $ D< 2 $ ( * 2 $  * 2 $ X< 2 $ 6 * 2 $ & * 2 $ 4 *- @ ! -- @ !T-- @ !d-- @ ! h-- @ !-- @ !-- @ !(-- @ !d,-- @ !-- @ !-- @ !-- @ ! -- @ !-- @ ! -- @ !-- @ ! -- @ !-- @ ! -- @ !-- @ ! -- @ !d-- @ !-- @ !(-- @ !-- @ !-- @ !-- @ !-- @ !-- @ !-2 G ,dCRD77< 2 G d +b2 G :hConsolidated Laser Ranging Data format under development. 7*) **%%*2% %7&)**)<%%*?%))*%*%)%*+?&)A2 G $hAn integrated, flexible, extensible ;))&)%%*&)*%%)%) *%/2 hformat for the ILRS full*?%*)%37.* 2 h-p2 Chrate, sampled engineering, and normal point data. Will accommodate %% &?*%*%*))%%*)%)*)*@%**)*%%O%%%+@?+*%%72  htransponder data and to handl %) **)*%*%%%)**)%)*v2  ]Ghe high repetition rate laser data without unnecessary redundancy. File &)*)%*%*)%%% %*%%;)+)**)%%% %)%*))*&*&(.%2 g `hconsists of header, configuration, and data records from one satellite and one session (hourly, %*) ! *)%%*%%*)))%*)%)**%%%%** *?*)% %%%&)**)% %! *))+)(#2 hdaily, monthly).*%(?**)) 2 h &h2 & >hhttp://ilrs.gsfc.nasa.gov/products_formats_procedures/crd.html)* * %)% %)*)****% **?% ***%%*)% %*)@ 2 & h +2 G (0.26*** 2 G ( ) 2 G ,A; 2 G , + 2 G  * 2 G  * 2 G X< 2 G 6 * 2 G & * 2 G 4 *- @ ! -- @ !T -- @ ! d-- @ ! h-- @ ! -- @ ! -- @ ! (-- @ !d ,-- @ ! -- @ ! -- @ ! -- @ !  -- @ ! -- @ !  -- @ ! -- @ !  -- @ ! -- @ !  -- @ ! -- @ !? -- @ !? d-- @ !? -- @ !? (-- @ !? -- @ !? -- @ !? -- @ !? -- @ !? -- @ !? -2 ,dCPF7/. 2 d *;2  hConsolidated Prediction Format. 7*) **%%*/%*%*).*@%m2 AhThe CPF information accurately predicts positions and ranges for 4)%7/.)*?%+)%%%)%%(*%*% ** *) &)*%))& *2 cha much wider variety of laser ranging targets than had been previously possible. CPF files include %?)&);*%)%%)*% %%))*)%)% )&))%**%%)*%)*) )** *%7/.% )%)*%X2 J 3hdaily tables of X, Y, and Z positions for each targe*%(%*% *<<%)*2** ** *%%%)%)L2 J +het which can then be interpolated for very v%;*%)&%))&)*%)%**%%**)%)2 _haccurate predictions. CPF provides an expanded format capability and greatly improves tracking %%%)%%*%*%*) 7/.**)*% %)&)*%)*%**?&%%*%*(%)*)%%(@**)% %%)*)2 ahon low satellites because the full modeling potential of the orbit computation at the prediction e*)+: &%& *%%%) %)%)?**%*)**%)%*)%**%*?**%*)%)%*%*%*)+2 jhcenter will be passedu%%)%;*%*% %*)2 j<h on to the stations.*)*)& %*)  2 jh &z2 Jhhttp://ilrs.gsfc.nasa.gov/products_formats_procedures/predictions/cpf.html)* * %)% %)*)****% **?% ***%%*)% *%*%*) %+)@ 2 = h +2 (1.01*** 2 ( ) 2 ,A; 2 , + 2 P/ 2 " ) 2  * 2 X< 2 6 * 2 & * 2 4 *- @ !; -- @ !T; -- @ !; d-- @ ! ; h-- @ !; -- @ !; -- @ !; (-- @ !d; ,-- @ !; -- @ !; -- @ !; -- @ ! ; -- @ !; -- @ ! ; -- @ !; -- @ ! ; -- @ !; -- @ ! ; -- @ !; -- @ !? -- @ !? d-- @ !? -- @ !? (-- @ !? -- @ !? -- @ !? -- @ !? -- @ !? -- @ !? -2 -,dSINEXl.<3< 2 -!d *P2 -.hSoftware Independent Exchange Format. General.*;%%)*%*%)*%*3)&)%*)%.*?%<&)%% 2 - h-L2 -% +hpurpose solution exchange format for space r+)** % *)*)&)%)&*)%*?&*!*%%%2  hgeodesy that )%**%!()%A2 ;$hfacilitates the task of combining so%&%& )%&!)*%+?*))) *2  hlutionsa)+) 2  h. C2  %hSINEX was designed to be modular and .=3<:& *% *)%***%?***%%)*2 [hgeneral enough to handle multiple techniques. It provides complete information on a priori i)%)%%&)**))*)%)*%@**%%%))+)% **)*% %*?+%%**?&*)*)%**2 M]hinformation that can be removed when required, making it unnecessary to submit or distribute g**?%*))%%&)*%&?**%*:)&)%*)%*?&)*)*))%%& %(* )+@** *)%22 hmultiple SINEX solution fi@**%.<3< *)*)y2  Ihles, e.g. constrained and unconstrained (free) solution files. Also used l& %)%*) %)%*&)*))%+) %)%*%% *)+)% ;!*) %*12 hfor VLBI experiment data.i*<28%)*%?&)*%% 2 h &z2 lJhhttp://ilrs.gsfc.nasa.gov/products_formats_procedures/predictions/cpf.html)* * %)% %)*)****% **?% ***%%*)% *%*%*) %+)@ 2 l= h +2 -(2.01*** 2 -( ) 2 -,A; 2 -, + 2 -P/ 2 -" ) 2 -X< 2 -( * 2 -X< 2 -6 * 2 -X< 2 -D * 2 -X< 2 -R *- @ ! -- @ !T-- @ !d-- @ ! h-- @ !-- @ !-- @ !(-- @ !d,-- @ !-- @ !-- @ !-- @ ! -- @ !-- @ ! -- @ !-- @ ! -- @ !-- @ ! -- @ !-- @ ! -- @ !d-- @ !-- @ !(-- @ !-- @ !-- @ !-- @ !-- @ !-- @ !-2 ,dSP./ 2 d *g2 =hStandard Product (for orbits) for all satellite types. The ba.%)*%*/**)%*)* *% %%%(*% 4)%*%L2  +hsic format is a position and clock record; r &*?% %** +)%)*%*%*%%**h2 0>ha second, optional, record contains velocities and clock rates% %%*)****)%%%*)%*)%) )%*%% &)*%*%)%%! 2 0f h-2 0 hof* 2 0 h-=2 0 !hchange. Also includes satellite &)%*)%; *)%)*%  %&%2 _hclock corrections, orbit accuracy exponents, comment lines, as many as three different sets of %*%)%*%%*) **%%%)%&(%)**)&) %+@@&))% % ?&*(& )%%*%&) %!*2  (SP3c, SP1 ./*%..* 2 ( ) 2 ,A; 2 , + 2   * 2 X< 2 ( *2 X (F)n<. 2 s * 2 & * 2 X< 2 R *- @ ! -- @ !T-- @ !d-- @ ! h-- @ !-- @ !-- @ !(-- @ !d,-- @ !-- @ !-- @ !-- @ ! -- @ !-- @ ! -- @ !-- @ ! -- @ !-- @ ! -- @ !-- @ !  -- @ ! -- @ ! -- @ !T-- @ ! d-- @ !d-- @ ! h-- @ ! -- @ !-- @ !-- @ ! (-- @ !(-- @ !d,-- @ ! -- @ !-- @ !-- @ ! -- @ !-- @ ! -- @ ! -- @ !-- @ ! -- @ ! -- @ !-- @ ! -- @ ! -- @ !-- @ ! -- @ ! -- @ !-- @ !-"System_P9@ @ -                    ՜.+,0< hp   NASA GSFC0 r Standardized Data FormatsStandardized Data Formats TitelTitle !"#$%&'()*+,-./0123456789:<=>?@ABCDEFGHIJKLMNOPQRSTUVWXZ[\]^_`abcdefghijklmnopqrstuvwxyz{|}~Root Entry F@/I5Data  F51Table;b;WordDocument3>SummaryInformation(Y@zDocumentSummaryInformation8CompObjq  FMicrosoft Office Word-Dokument MSWordDocWord.Document.89qRoot Entry F@ݵ85@Data  F51Table;b;WordDocument3>4 $,SummaryInformation(Y@zDocumentSummaryInformation8CompObjq  FMicrosoft Office Word-Dokument MSWordDocWord.Document.89q՜.+,D՜.+,< hp   NASA GSFC0 r Standardized Data FormatsStandardized Data Formats TitelTitle