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Introduction to GAMIT/GLOBK

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Title: Introduction to GAMIT/GLOBK


1
Introduction to GAMIT/GLOBK
2
Basic framework GAMIT
  • GAMIT Series of programs that analyze GPS phase
    data to estimate parameters
  • Station positions (coordinates)
  • assumed constant at epoch of data
  • Satellite orbital parameters
  • Initial conditions
  • Radiation parameters
  • Phase center offsets
  • Earth orientation parameters (EOP)
  • Atmospheric delay parameters
  • Time-dependent Zenith delays and gradients
  • Carrier phase ambiguities

3
Basic framework GLOBK
  • GLOBK combines solutions from GPS, SLR, VLBI
    data via their parameter estimates and full
    covariance matrices to estimate other parameters
  • Site velocities
  • temporal derivative of position in mm/yr
  • requires a time series of measurements
  • Satellite orbit adjustments
  • EOP parameters
  • Others parameters, e.g., co-seismic displacements

4
GAMIT Structure
  • History
  • Data types
  • Steps needed in processing
  • Files needed for processing

5
GAMIT History
  • Development started in late 1970s when MIT was
    building GPS receivers
  • Code derived from 1960-1970 planetary ephemeris
    and VLBI software
  • Ported to Unix in 1987
  • Start of IGS in 1992 prompted development of
    automatic processing schemes
  • Fully automatic processing mid-1990s including
    continuous stations and campaign GPS measurements

6
Current GAMIT Status
  • Automatic features
  • FTP'ing of data and other files
  • Extraction of information from RINEX files
  • Automatic creation of directories
  • Status/Warning files to monitor process
  • Largest automatic run
  • Southern California Earthquake Center
    campaign-style data set from 1992-2002

7
Data Types
  • L1 and L2 phase
  • used for parameter estimation
  • P1 and P2 range measurements
  • used to help clean phase data
  • used to estimate receiver clock offset with
    tolerance of 1 microsecond ( 300 m)
  • LC phase
  • proportional to geometric range
  • sensitive insensitive to ionospheric delay
  • linear combination of L1 and L2

8
Data Types (contd)
  • LG phase
  • measures ionospheric delay only
  • insensitive to geomery
  • Widelane WL
  • linear combination of L1, L2, P1 and P2
  • Melbourne-Wubbena
  • Should be constant (/- noise)

9
Major steps for GAMIT
  • arc integrates GPS satellite orbits
  • model
  • calculates theoretical (modeled) phase
  • partial derivatives of phase w.r.t. parameters
  • autcln
  • cleans GPS data and repairs cycle slips
  • solve
  • estimates parameters via least squares
  • calculates goodness of fit

10
Minor steps for GAMIT
  • Generate yaw table for GPS satellites
  • Ocean tide loading coefficients
  • Explicit site values
  • Interpolation of gridded values
  • Estimation clock models
  • satellite frequency standard
  • ground receiver clock
  • Display phase residuals
  • time series
  • sky plot

11
Files needed for processing
  • Control files for GAMIT (Lecture 03)
  • Initial orbit information from
  • Broadcast ephemeris from receivers
  • SP3 orbit files from IGS
  • GAMIT g-files
  • Earth Orientation Parameters (EOP) files
  • arc integrates in inertial frame
  • Satellite clock files (J-files)
  • Ocean tide files

12
Files (continued)
  • Moon and Sun ephemerides
  • orbit integration
  • solid Earth tides
  • leap-second file (UTC versus GPST or TAI)
  • Satellite information files
  • Information about stations
  • prior (approximate) estimates of coordinates
  • receiver and antenna types
  • antenna heights
  • models for GPS antenna phase center

13
Data Files
  • Raw receiver files
  • UNAVCO teqc program translates to RINEX
  • RINEX files
  • GAMIT converts to own format x-files
  • Data files
  • local, or
  • ftp'd from international archives

14
GAMIT File summary
  • GAMIT uses many files
  • Many of these files are standard and
    automatically created
  • Automatic processing scripts either link or ftp
    these files.
  • Some files should be updated from MIT ftp site
    (bowie.mit.edu)
  • For example, the satellite information files need
    to be updated when new satellites are launched

15
GAMIT documentation
  • GAMIT documentation available as PDF, Postscript
    and RTF files
  • Each chapter as separate document
  • Chapter 1 Overview
  • Chapter 2 Theory
  • Chapter 3 File structure and names
  • Chapter 4 Creating input files
  • Chapter 5 Batch Processing
  • Chapter 6 Data Editing
  • Chapter 7 Running modules

16
Chapters continued
  • Chapter 8 Atmospheric delay models
  • Chapter 9 Utility programs
  • Chapter 10 Automatic Batch Processing
  • Appendices
  • Shell scripts document themselves

17
GLOBK Structure
  • History
  • Steps in processing
  • Files in processing

18
GLOBK History
  • Suite of programs
  • Written in mid-1980s to handle combination of
    VLBI data
  • Extended in 1989 to handle GPS results GAMIT
    modified to output needed files
  • 1990's Extensions to handle SLR data and SINEX
    files

19
GLOBK philosophy
  • Driven by command files
  • Flexible format and file-naming
  • Accepts solutions from upstream analysis
  • Input upstream solutions as binary h-files
  • globk (combination)
  • glred (smaller sessions, one at a time)
  • glorg (generalized constraints)
  • Analysis interpretation

20
Required files
  • binary h-files generated by htoglb from
  • GAMIT h-files (ASCII),
  • SINEX
  • other
  • command files
  • very flexible, key-word structure

21
Optional files
  • Orbit files (svs format)
  • EOP (pmu files)
  • Earthquake/rename definitions
  • "Source" files with subsets of commands
  • apriori coordinate and motion files
  • Information not specified by user files is
    generated by various techniques

22
GLOBK documentation
  • Available as PDF, PS and RTF files
  • Nearly all modules in GLOBK suite have up-to-date
    documentation on-line
  • To get help for a command, type its name alone on
    the command line.

23
Differences between GAMIT and GLOBK
  • GAMIT operations and files are rigid GLOBK uses
    flexible formats and is used in many different
    ways
  • GAMIT tends to stop if a problem is encountered
    (less so these days) GLOBK tries to continue as
    far as it can by defaulting values
  • Pros/Cons GAMIT stops can be frustrating GLOBK
    may appear to work but might generate erroneous
    results.

24
Differences (continued)
  • Basic aim of GAMIT is to generate
    positions/orbits for one day of data. Standard
    product of GAMIT is a minimally constrained
    solution
  • GLOBK flexibly combines minimally constrained
    parameter estimates from one or more measurement
    types (GPS, SLR, VLBI, DORIS)

25
Getting GAMIT/GLOBK
  • Free for research/non-commercial license
  • Fortran Source code
  • Executables for HP, Solaris and Linux

26
Getting GAMIT/GLOBK (2)
  • Point browser to
  • http//www-gpsg.mit.edu/simon/gtgk/index.html
  • Click on icon to download software
  • Complete the license information, and send via
    e-mail to rwk_at_chandler.mit.edu
  • Password changes with every new release.
  • Registered users will receive an email message
    when new passwords are set

27
Getting GAMIT/GLOBK (3)
  • Enter password
  • Your working directory is now
  • pub/gps/updates/source
  • contains source code and other files
  • Copy all .tar files and install_software to your
    machine
  • etopo5 and maps not strictly needed
  • Scherneck ocean grid file needed for ocean
    loading corrections.

28
Getting GAMIT/GLOBK (4)
  • To get documentation or executables, go up one
    directory (cd ../)
  • Remember to read the file release_notes to learn
    about important changes to the software.
  • If you already have a previous release,
  • the incremental_updates directory contains the
    latest changes since the previous release.
  • Then use install_updates

29
Installing GAMIT/GLOBK
  • In the directory on your machine containing the
    tar files, simply type install_software
  • Wait a while.

30
After installation script finishes
  • Use ln -s to make link in home directory called
    gg (for gamit/globk). This should link points to
    the same directory as install_software was done.
  • Add to path in /.cshrc file
  • /gg/com /gg/gamit/bin /gg/kf/bin
  • Also add to your /.cshrc file
  • setenv HELP_DIR /gg/help
  • setenv INSTITUTE lt3-char codegt
  • We use the tcsh or csh shells

31
Summary
  • GAMIT Phase data processing
  • Suite of programs needed for processing
  • Files needed from various sources
  • Automatic script sh_gamit generates most files
  • GLOBK Combination program
  • Also a suite of programs
  • Files from GAMIT and other sources
  • Contact person for GAMIT/GLOBK
    rwk_at_chandler.mit.edu
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