MatchPessimisticBTask¶
MatchPessimisticBTask
matches sources to reference objects. This is often
done as a preliminary step to fitting an astrometric or photometric solution.
The algorithm is based on a more “Pessimistic” version of the Optimistic Pattern Matcher B as described in DMTN-013.
Optimistic Pattern Matching is described in [Tabur2007]
Fast algorithms for matching CCD images to a stellar catalogue* arxiv:0710.3618
Processing summary¶
MatchPessimisticBTask
runs this sequence of operations:
Flags sources with bad centroids and low signal to noise and remove them from the matching.
Match the usable sources with an input reference catalog using the updated V. Tabur 2007 algorithm.
Further remove sources detected on the edge of the image and those that are saturated.
Return these sources matched to the references.
Python API summary¶
from lsst.meas.astrom.matchPessimisticB import MatchPessimisticBTask
-
class
MatchPessimisticBTask
(**kwargs) Match sources to reference objects
...
- attributeconfig
Access configuration fields and retargetable subtasks.
See also
See the MatchPessimisticBTask
API reference for complete details.
Retargetable subtasks¶
No subtasks.
Configuration fields¶
matcherIterations¶
- Default
5
- Field type
- Range
[1,inf)
Number of softening iterations in matcher.
maxOffsetPix¶
- Default
250
- Field type
- Range
[-inf,4000)
Maximum allowed shift of WCS, due to matching (pixel). When changing this value, the LoadReferenceObjectsConfig.pixelMargin should also be updated.
maxRefObjects¶
- Default
8192
- Field type
- Range
[0,65537)
Maximum number of reference objects to use for the matcher. The absolute maximum allowed for is 2 ** 16 for memory reasons.
maxRotationDeg¶
- Default
1.0
- Field type
- Range
[-inf,6.0)
Rotation angle allowed between sources and position reference objects (degrees).
minFracMatchedPairs¶
- Default
0.3
- Field type
- Range
[0,1)
Minimum number of matched pairs as a fraction of the smaller of the number of reference stars or the number of good sources; the actual minimum is the smaller of this value or minMatchedPairs.
minMatchDistPixels¶
- Default
1.0
- Field type
- Range
[0.0,6.0)
Distance in units of pixels to always consider a source-reference pair a match. This prevents the astrometric fitter from over-fitting and removing stars that should be matched and allows for inclusion of new matches as the wcs improves.
minMatchedPairs¶
- Default
30
- Field type
- Range
[2,inf)
Minimum number of matched pairs; see also minFracMatchedPairs.
numBrightStars¶
- Default
150
- Field type
- Range
[2,inf)
Maximum number of bright stars to use. Sets the max number of patterns that can be tested.
numPatternConsensus¶
Number of implied shift/rotations from patterns that must agree before it a given shift/rotation is accepted. This is only used after the first softening iteration fails and if both the number of reference and source objects is greater than numBrightStars.
numPointsForShape¶
Number of points to define a shape for matching.
numPointsForShapeAttempt¶
Number of points to try for creating a shape. This value should be greater than or equal to numPointsForShape. Besides loosening the signal to noise cut in the ‘matcher’ SourceSelector, increasing this number will solve CCDs where no match was found.
numRefRequireConsensus¶
If the available reference objects exceeds this number, consensus/pessimistic mode will enforced regardless of the number of available sources. Below this optimistic mode (exit at first match rather than requiring numPatternConsensus to be matched) can be used. If more sources are required to match, decrease the signal to noise cut in the sourceSelector.
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 MatchOptimisticB 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.