# x2sys_solve¶

x2sys_solve - Determine least-squares systematic correction from crossovers

## Synopsis¶

**x2sys_solve** **-C***column* **-T***TAG* **-E****c**|**d**|**g**|**h**|**s**|**y**|**z**
[ *COE_list.txt* ]
[ **-V**[*level*] ]
[ **-W****[u]** ]
[ **-bi**binary ]
[ **-di**nodata ]
[ **-x**[[-]*n*] ]
[ **–PAR**=*value* ]

**Note:** No space is allowed between the option flag and the associated arguments.

## Description¶

**x2sys_solve** will use the supplied crossover information to solve
for systematic corrections that can then be applied per track to improve
data quality. Seven different systematic corrections can be solved for using a
least-squares approach. Note: Only one data column can be processed at
the time.

## Required Arguments¶

*COE_list.txt*- Name of file with the required crossover columns as produced by
x2sys_list. NOTE: If
**-bi**is used then the first two columns are expected to hold the integer track IDs; otherwise we expect those columns to hold the text string names of the two tracks. If no file is given we will read from*stdin*.

**-T***TAG*- Specify the x2sys
*TAG*which identifies the attributes of this data type.

**-C***column*- Specify which data column you want to process. Needed for proper formatting of the output correction table and must match the same option used in x2sys_list when preparing the input data.

**-E****c**|**d**|**g**|**h**|**s**|**y**|**z**The correction type you wish to model. Choose among the following functions f(

*p*) , where*p*are the*m*parameters per track that we will fit simultaneously using a least squares approach:**c**will fit f(*p*) =*a*(a constant offset); records must contain track ID1, ID2, COE.**d**will fit f(*p*) =*a*+*b***d*(linear drift;*d*is distance; records must contain track ID1, ID2, d1, d2, COE.**g**will fit f(*p*) =*a*+*b*sin(y)^2 (1980-1930 gravity correction); records must contain track ID1, ID2, latitude y, COE.**h**will fit f(*p*) =*a*+*b*cos(H) +*c*cos(2H) +*d*sin(H) +*e*sin(2H) (magnetic heading correction); records must contain track ID1, ID2, heading H, COE.**s**will fit f(*p*) =*a** z (a unit scale correction); records must contain track ID1, ID2, z1, z2.**t**will fit f(*p*) =*a*+*b** (*t - t0*) (linear drift;*t0*is the start time of the track); records must contain track ID1, ID2, t1-t0, t2-t0, COE.**z**will fit f(*p*) =*a*+*b** z (an offset plus a unit scale correction); records must contain track ID1, ID2, z1, z2.

## Optional Arguments¶

**-V**[*level*] (more …)- Select verbosity level [c].

**-W**- Means that each input records has an extra column with the composite
weight for each crossover record. These are used to obtain a
weighted least squares solution [no weights]. Append
**u**to report unweighted mean/std [Default, report weighted stats].

**-bi**[*ncols*][**t**] (more …)- Select native binary input.

**-di***nodata*(more …)- Replace input columns that equal
*nodata*with NaN.

**-x**[[-]*n*] (more …)- Limit number of cores used in multi-threaded algorithms (OpenMP required).

**-^**or just**-**- Print a short message about the syntax of the command, then exits (NOTE: on Windows just use
**-**). **-+**or just**+**- Print an extensive usage (help) message, including the explanation of any module-specific option (but not the GMT common options), then exits.
**-?**or no arguments- Print a complete usage (help) message, including the explanation of all options, then exits.
**–PAR**=*value*- Temporarily override a GMT default setting; repeatable. See gmt.conf for parameters.

## Notes¶

Most of the model corrections in **-E** involve a constant offset.
Because crossovers are differences between values, any absolute level
will cancel out and hence the constant offsets we obtain are relative
to an undetermined absolute level. To obtain a solvable solution we
add the constraint that the sum of all constant offsets equal zero.
If the tracks form clusters in which no tracks from one cluster cross
any track from another cluster then these are two independent data
sets and require they own constraint equation for their offsets. We
determine the number of clusters and automatically add the required
constraint equations. If you need a particular reference track to have
a particular offset (e.g., 0) then you can subtract the offset you
found from every track correction and add in the desired offset.

## Examples¶

To fit a simple bias offset to faa for all tracks under the MGD77 tag, try

gmt x2sys_list COE_data.txt -V -TMGD77 -Cfaa -Fnc > faa_coe.txt gmt x2sys_solve faa_coe.txt -V -TMGD77 -Cfaa -Ec > coe_table.txt

To fit a faa linear drift with time instead, try

gmt x2sys_list COE_data.txt -V -TMGD77 -Cfaa -FnTc > faa_coe.txt gmt x2sys_solve faa_coe.txt -V -TMGD77 -Cfaa -Et > coe_table.txt

To estimate heading corrections based on magnetic crossovers associated with the tag MGD77 from the file COE_data.txt, try

gmt x2sys_list COE_data.txt -V -TMGD77 -Cmag -Fnhc > mag_coe.txt gmt x2sys_solve mag_coe.txt -V -TMGD77 -Cmag -Eh > coe_table.txt

To estimate unit scale corrections based on bathymetry crossovers, try

gmt x2sys_list COE_data.txt -V -TMGD77 -Cdepth -Fnz > depth_coe.txt gmt x2sys_solve depth_coe.txt -V -TMGD77 -Cdepth -Es > coe_table.txt

## See Also¶

x2sys_binlist, x2sys_cross, x2sys_datalist, x2sys_get, x2sys_init, x2sys_list, x2sys_put, x2sys_report