AstrometryTask¶
AstrometryTask
matches a source catalog with objects from a reference
catalog and attempts to fit a WCS.
Processing summary¶
AstrometryTask
runs this sequence of operations:
- Find position reference stars that overlap the exposure.
- Match input source catalog to the position reference stars.
- Fit a WCS based on the matches.
Python API summary¶
from lsst.meas.astrom.astrometry import AstrometryTask
-
class
(refObjLoader, schema=None, **kwargs)AstrometryTask
Match an input source catalog with objects from a reference catalog and solve for the WCS
...
-
attribute
config
Access configuration fields and retargetable subtasks.
See also
See the AstrometryTask
API reference for complete details.
Retargetable subtasks¶
matcher¶
- Default
lsst.meas.astrom.matchPessimisticB.MatchPessimisticBTask
- Field type
ConfigurableField
reference object/source matcher
referenceSelector¶
- Default
lsst.meas.algorithms.sourceSelector.ReferenceSourceSelectorTask
- Field type
ConfigurableField
How to select reference objects for cross-matching.
sourceSelector¶
- Default
'science'
- Field type
- Single-selection
RegistryField
- Choices
'science'
lsst.meas.algorithms.sourceSelector.ScienceSourceSelectorTask
'references'
lsst.meas.algorithms.sourceSelector.ReferenceSourceSelectorTask
'objectSize'
lsst.meas.algorithms.objectSizeStarSelector.ObjectSizeStarSelectorTask
'flagged'
lsst.meas.algorithms.flaggedSourceSelector.FlaggedSourceSelectorTask
'astrometry'
lsst.meas.algorithms.astrometrySourceSelector.AstrometrySourceSelectorTask
'matcher'
lsst.meas.algorithms.matcherSourceSelector.MatcherSourceSelectorTask
'diaCatalog'
lsst.ip.diffim.diaCatalogSourceSelector.DiaCatalogSourceSelectorTask
How to select sources for cross-matching.
wcsFitter¶
- Default
lsst.meas.astrom.fitTanSipWcs.FitTanSipWcsTask
- Field type
ConfigurableField
WCS fitter
Configuration fields¶
doMagnitudeOutlierRejection¶
If True then a rough zeropoint will be computed from matched sources and outliers will be rejected in the iterations.
forceKnownWcs¶
If True then load reference objects and match sources but do not fit a WCS; this simply controls whether ‘run’ calls ‘solve’ or ‘loadAndMatch’
magnitudeOutlierRejectionNSigma¶
Number of sigma (measured from the distribution) in magnitude for a potential reference/source match to be rejected during iteration.
matchDistanceSigma¶
- Default
2
- Field type
float
RangeField
- Range
- [0,inf)
the maximum match distance is set to mean_match_distance + matchDistanceSigma*std_dev_match_distance; ignored if not fitting a WCS
maxIter¶
- Default
3
- Field type
int
RangeField
- Range
- [1,inf)
maximum number of iterations of match sources and fit WCSignored if not fitting a WCS
maxMeanDistanceArcsec¶
- Default
0.5
- Field type
float
RangeField
- Range
- [0,inf)
Maximum mean on-sky distance (in arcsec) between matched source and rerference objects post-fit. A mean distance greater than this threshold raises a TaskError and the WCS fit is considered a failure. The default is set to the maximum tolerated by the external global calibration (e.g. jointcal) step for conceivable recovery. Appropriate value will be dataset and workflow dependent.
minMatchDistanceArcSec¶
- Default
0.001
- Field type
float
RangeField
- Range
- [0,inf)
the match distance below which further iteration is pointless (arcsec); ignored if not fitting a WCS
Debugging¶
The lsst.pipe.base.cmdLineTask.CmdLineTask
command line task interface supports a flag -d to import debug.py from your PYTHONPATH; see lsstDebug for more about debug.py files.
The available variables in AstrometryTask are
- display (bool)
- If True display information at three stages: after finding reference objects, after matching sources to reference objects, and after fitting the WCS; defaults to False
- frame (int)
- frame to use to display the reference objects; the next two frames are used to display the match list and the results of the final WCS; defaults to 0
To investigate the meas_astrom_astrometry_Debug, put something like
import lsstDebug
def DebugInfo(name):
debug = lsstDebug.getInfo(name) # N.b. lsstDebug.Info(name) would call us recursively
if name == "lsst.meas.astrom.astrometry":
debug.display = True
return debug
lsstDebug.Info = DebugInfo
into your debug.py file and run this task with the --debug
flag.