- Find and compute Cross-Over Errors
] [ -A
] [ -C
] [ -V
] [ -Wtimegap
] [ -Gfact
] [ -Tfact
] [ -Nnp_int
is used to inspect two cruises to see if they intersect, and if so
report the time, position, discrepancies in gravity/magnetics/bathymetry,
heading for each track segment, and the average values of the geophysical
observables at the cross-over point. The names of the legs are passed on the
command line. If they are identical or only one name is passed, then
looks for internal cross-overs. The optional parameters are:
- Use an Akima spline to interpolate the geophysical field at the cross-over
- Use a Natural Cubic spline function instead.
- Use a linear interpolant [Default].
- Do not compute cross-overs if the 2 nearest points are more than
timegap minutes apart.
- Scale gravity by fact [Default is 0.1 since gmt-files store gravity
- Scale magnetic anomaly by fact [1.0].
- Scale bathymetry by fact [1.0].
- Specify how many points to use in the interpolation [Default is 6].
- Selects verbose mode, which will send progress reports to stderr [Default
runs "silently"]. Report the number of cross-overs for this pair
The COEs found are printed out to standard output in ASCII format. The first
record contains the leg names and their start year, whereas subsequent records
have the data for each COE encountered. The fields written out are lat, lon,
time along track #1, time along track #2, x_gravity, x_magnetics,
x_bathymetry, average gravity, average magnetics, average bathymetry, heading
along track #1, and heading along track #2. Sign convention: If lega and legb
are passed on the command line, then the COE value is Value (lega) - Value
(legb). It is recommended that the Akima spline is used instead of the natural
cubic spline, since it is less sensitive to outliers that tend to introduce
wild oscillations in the interpolation.
Wessel, P. XOVER: A Cross-over Error Detector for Track Data, Computers &