DcrModel¶

class lsst.ip.diffim.DcrModel(modelImages, filterInfo=None, psf=None, mask=None, variance=None)¶

Bases: object

A model of the true sky after correcting chromatic effects.

Notes

The DcrModel contains an estimate of the true sky, at a higher wavelength resolution than the input observations. It can be forward- modeled to produce Differential Chromatic Refraction (DCR) matched templates for a given Exposure, and provides utilities for conditioning the model in dcrAssembleCoadd to avoid oscillating solutions between iterations of forward modeling or between the subfilters of the model.

Attributes:	dcrNumSubfilters : `int` Number of sub-filters used to model chromatic effects within a band. modelImages : `list` of `lsst.afw.image.Image` A list of masked images, each containing the model for one subfilter

Attributes Summary

`bbox`	Return the common bounding box of each subfilter image.
`filter`	Return the filter of the model.
`mask`	Return the common mask of each subfilter image.
`psf`	Return the psf of the model.
`variance`	Return the common variance of each subfilter image.

Methods Summary

`applyImageThresholds`(image[, highThreshold, …])	Restrict image values to be between upper and lower limits.
`assign`(dcrSubModel[, bbox])	Update a sub-region of the `DcrModel` with new values.
`buildMatchedExposure`([exposure, visitInfo, …])	Wrapper to create an exposure from a template image.
`buildMatchedTemplate`([exposure, order, …])	Create a DCR-matched template image for an exposure.
`calculateNoiseCutoff`(image, statsCtrl, …)	Helper function to calculate the background noise level of an image.
`conditionDcrModel`(modelImages, bbox[, gain])	Average two iterations’ solutions to reduce oscillations.
`fromDataRef`(dataRef[, datasetType, …])	Load an existing DcrModel from a repository.
`fromImage`(maskedImage, dcrNumSubfilters[, …])	Initialize a DcrModel by dividing a coadd between the subfilters.
`getReferenceImage`([bbox])	Calculate a reference image from the average of the subfilter images.
`regularizeModelFreq`(modelImages, bbox, …)	Restrict large variations in the model between subfilters.
`regularizeModelIter`(subfilter, newModel, …)	Restrict large variations in the model between iterations.

Attributes Documentation

bbox¶

Return the common bounding box of each subfilter image.

Returns:	bbox : `lsst.afw.geom.Box2I` Bounding box of the DCR model.

filter¶

Return the filter of the model.

Returns:	filter : `lsst.afw.image.Filter` The filter definition, set in the current instruments’ obs package.

mask¶

Return the common mask of each subfilter image.

Returns:	mask : `lsst.afw.image.Mask` Mask plane of the DCR model.

psf¶

Return the psf of the model.

Returns:	psf : `lsst.afw.detection.Psf` Point spread function (PSF) of the model.

variance¶

Return the common variance of each subfilter image.

Returns:	variance : `lsst.afw.image.Image` Variance plane of the DCR model.

Methods Documentation

applyImageThresholds(image, highThreshold=None, lowThreshold=None, regularizationWidth=2)¶

Restrict image values to be between upper and lower limits.

This method flags all pixels in an image that are outside of the given threshold values. The threshold values are taken from a reference image, so noisy pixels are likely to get flagged. In order to exclude those noisy pixels, the array of flags is eroded and dilated, which removes isolated pixels outside of the thresholds from the list of pixels to be modified. Pixels that remain flagged after this operation have their values set to the appropriate upper or lower threshold value.

Parameters:

image : numpy.ndarray: The image to apply the thresholds to. The values will be modified in place.
highThreshold : numpy.ndarray, optional: Array of upper limit values for each pixel of image.
lowThreshold : numpy.ndarray, optional: Array of lower limit values for each pixel of image.
regularizationWidth : int, optional: Minimum radius of a region to include in regularization, in pixels.

assign(dcrSubModel, bbox=None)¶

Update a sub-region of the DcrModel with new values.

Parameters:	dcrSubModel : `lsst.pipe.tasks.DcrModel` New model of the true scene after correcting chromatic effects. bbox : `lsst.afw.geom.Box2I`, optional Sub-region of the coadd. Defaults to the bounding box of `dcrSubModel`.
Raises:	ValueError If the new model has a different number of subfilters.

buildMatchedExposure(exposure=None, visitInfo=None, bbox=None, wcs=None, mask=None)¶

Wrapper to create an exposure from a template image.

Parameters:

exposure : lsst.afw.image.Exposure, optional: The input exposure to build a matched template for. May be omitted if all of the metadata is supplied separately
visitInfo : lsst.afw.image.VisitInfo, optional: Metadata for the exposure. Ignored if exposure is set.
bbox : lsst.afw.geom.Box2I, optional: Sub-region of the coadd. Ignored if exposure is set.
wcs : lsst.afw.geom.SkyWcs, optional: Coordinate system definition (wcs) for the exposure. Ignored if exposure is set.
mask : lsst.afw.image.Mask, optional: reference mask to use for the template image.

Returns:

templateExposure : lsst.afw.image.exposureF: The DCR-matched template

buildMatchedTemplate(exposure=None, order=3, visitInfo=None, bbox=None, wcs=None, mask=None, splitSubfilters=True, splitThreshold=0.0, amplifyModel=1.0)¶

Create a DCR-matched template image for an exposure.

Parameters:	exposure : `lsst.afw.image.Exposure`, optional The input exposure to build a matched template for. May be omitted if all of the metadata is supplied separately order : `int`, optional Interpolation order of the DCR shift. visitInfo : `lsst.afw.image.VisitInfo`, optional Metadata for the exposure. Ignored if `exposure` is set. bbox : `lsst.afw.geom.Box2I`, optional Sub-region of the coadd. Ignored if `exposure` is set. wcs : `lsst.afw.geom.SkyWcs`, optional Coordinate system definition (wcs) for the exposure. Ignored if `exposure` is set. mask : `lsst.afw.image.Mask`, optional reference mask to use for the template image. splitSubfilters : `bool`, optional Calculate DCR for two evenly-spaced wavelengths in each subfilter, instead of at the midpoint. Default: True splitThreshold : `float`, optional Minimum DCR difference within a subfilter required to use `splitSubfilters` amplifyModel : `float`, optional Multiplication factor to amplify differences between model planes. Used to speed convergence of iterative forward modeling.
Returns:	templateImage : `lsst.afw.image.ImageF` The DCR-matched template
Raises:	ValueError If neither `exposure` or all of `visitInfo`, `bbox`, and `wcs` are set.

calculateNoiseCutoff(image, statsCtrl, bufferSize, convergenceMaskPlanes='DETECTED', mask=None, bbox=None)¶

Helper function to calculate the background noise level of an image.

Parameters:

image : lsst.afw.image.Image: The input image to evaluate the background noise properties.
statsCtrl : lsst.afw.math.StatisticsControl: Statistics control object for coaddition.
bufferSize : int: Number of additional pixels to exclude from the edges of the bounding box.
convergenceMaskPlanes : list of str, or str: Mask planes to use to calculate convergence.
mask : lsst.afw.image.Mask, Optional: Optional alternate mask
bbox : lsst.afw.geom.Box2I, optional: Sub-region of the masked image to calculate the noise level over.

Returns:

noiseCutoff : float: The threshold value to treat pixels as noise in an image..

conditionDcrModel(modelImages, bbox, gain=1.0)¶

Average two iterations’ solutions to reduce oscillations.

Parameters:	modelImages : `list` of `lsst.afw.image.Image` The new DCR model images from the current iteration. The values will be modified in place. bbox : `lsst.afw.geom.Box2I` Sub-region of the coadd gain : `float`, optional Relative weight to give the new solution when updating the model. Defaults to 1.0, which gives equal weight to both solutions.

classmethod fromDataRef(dataRef, datasetType='dcrCoadd', numSubfilters=None, **kwargs)¶

Load an existing DcrModel from a repository.

Parameters:

dataRef : lsst.daf.persistence.ButlerDataRef: Data reference defining the patch for coaddition and the reference Warp
datasetType : str, optional: Name of the DcrModel in the registry {“dcrCoadd”, “dcrCoadd_sub”}
numSubfilters : int: Number of sub-filters used to model chromatic effects within a band.
**kwargs: Additional keyword arguments to pass to look up the model in the data registry. Common keywords and their types include: tract:str, patch:str, bbox:lsst.afw.geom.Box2I

Returns:

dcrModel : lsst.pipe.tasks.DcrModel: Best fit model of the true sky after correcting chromatic effects.

classmethod fromImage(maskedImage, dcrNumSubfilters, filterInfo=None, psf=None)¶

Initialize a DcrModel by dividing a coadd between the subfilters.

Parameters:	maskedImage : `lsst.afw.image.MaskedImage` Input coadded image to divide equally between the subfilters. dcrNumSubfilters : `int` Number of sub-filters used to model chromatic effects within a band. filterInfo : `lsst.afw.image.Filter`, optional The filter definition, set in the current instruments’ obs package. Required for any calculation of DCR, including making matched templates. psf : `lsst.afw.detection.Psf`, optional Point spread function (PSF) of the model. Required if the `DcrModel` will be persisted.
Returns:	dcrModel : `lsst.pipe.tasks.DcrModel` Best fit model of the true sky after correcting chromatic effects.
Raises:	ValueError If there are any unmasked NAN values in `maskedImage`.

getReferenceImage(bbox=None)¶

Calculate a reference image from the average of the subfilter images.

Parameters:	bbox : `lsst.afw.geom.Box2I`, optional Sub-region of the coadd. Returns the entire image if `None`.
Returns:	refImage : `numpy.ndarray` The reference image with no chromatic effects applied.

regularizeModelFreq(modelImages, bbox, statsCtrl, regularizationFactor, regularizationWidth=2, mask=None, convergenceMaskPlanes='DETECTED')¶

Restrict large variations in the model between subfilters.

Parameters:

modelImages : list of lsst.afw.image.Image: The new DCR model images from the current iteration. The values will be modified in place.
bbox : lsst.afw.geom.Box2I: Sub-region to coadd
statsCtrl : lsst.afw.math.StatisticsControl: Statistics control object for coaddition.
regularizationFactor : float: Maximum relative change of the model allowed between subfilters.
regularizationWidth : int, optional: Minimum radius of a region to include in regularization, in pixels.
mask : lsst.afw.image.Mask, optional: Optional alternate mask
convergenceMaskPlanes : list of str, or str, optional: Mask planes to use to calculate convergence.

Notes

This implementation of frequency regularization restricts each subfilter image to be a smoothly-varying function times a reference image.

regularizeModelIter(subfilter, newModel, bbox, regularizationFactor, regularizationWidth=2)¶

Restrict large variations in the model between iterations.

Parameters:

subfilter : int: Index of the current subfilter within the full band.
newModel : lsst.afw.image.Image: The new DCR model for one subfilter from the current iteration. Values in newModel that are extreme compared with the last iteration are modified in place.
bbox : lsst.afw.geom.Box2I: Sub-region to coadd
regularizationFactor : float: Maximum relative change of the model allowed between iterations.
regularizationWidth : int, optional: Minimum radius of a region to include in regularization, in pixels.

Navigation

DcrModel¶