FitCircleToStripe3D_Direct

Performs a series of 1D edge detections in 3D and finds a circle that best matches the detected points.

Applications:Precise detection of a circular object or hole, whose rough location is known beforehand.

Syntax

def FitCircleToStripe3D_Direct(
	inSurface: Surface,
	inFittingField: CircleFittingField,
	/,
	*,
	inFittingFieldAlignment: CoordinateSystem2D | None = None,
	inScanCount: int = 10,
	inSamplingStep: float | None = None,
	inScanWidth: int = 5,
	inSurfaceInterpolation: InterpolationMethod = InterpolationMethod.Bilinear,
	inStripeScanParams: StripeScanParams3D = StripeScanParams3D(ProfileInterpolationMethod.Quadratic4, 1.0, 5.0, None, SurfaceStripePolarity.High, 0.0, None),
	inStripeSelection: Selection = Selection.Best,
	inLocalBlindness: LocalBlindness | None = None,
	inMaxProfileGapWidth: int | None = 1,
	inMaxIncompleteness: float = 0.1,
	inFittingMethod: CircleFittingMethod = CircleFittingMethod.AlgebraicTaubin,
	inOutlierSuppression: MEstimator | None = None,
	outAlignedFittingField: CircleFittingField | None = None
)
-> (
	outCircle: Circle3D | None,
	outInnerCircle: Circle3D | None,
	outOuterCircle: Circle3D | None,
	outStripes: list[SurfaceStripe1D | None],
	outStripePoints: list[Point3D],
	outDeviationProfile: Profile | None,
	outHeightProfiles: list[Profile],
	outResponseProfiles: list[Profile],
	diagScanSegments: list[Segment2D],
	diagSamplingAreas: list[Rectangle2D]
)

Parameters

Name	Type	Range	Default	Description
inSurface	Surface			Surface to fit the circle to
inFittingField	CircleFittingField			Circle fitting field
inFittingFieldAlignment	CoordinateSystem2D \| None		None	Adjusts the fitting field to the position of the inspected object
inScanCount	int	3 -	10	The number of points that will be searched to estimate the position of the circle
inSamplingStep	float \| None	0.0 -	None	Desired distance between consecutive sampling points on the scan segments; if Nil, the bigger of surface X and Y scales is chosen
inScanWidth	int	1 -	5	The width of each scan field (in pixels)
inSurfaceInterpolation	InterpolationMethod		InterpolationMethod.Bilinear	Interpolation method used for extraction of surface points
inStripeScanParams	StripeScanParams3D		StripeScanParams3D(ProfileInterpolationMethod.Quadratic4, 1.0, 5.0, None, SurfaceStripePolarity.High, 0.0, None)	Parameters controlling the stripe extraction process
inStripeSelection	Selection		Selection.Best	Selection mode of stripe
inLocalBlindness	LocalBlindness \| None		None	Defines conditions in which weaker edges can be detected in the vicinity of stronger edges
inMaxProfileGapWidth	int \| None	0 -	1	Maximal number of consecutive not existing profile points
inMaxIncompleteness	float	0.0 - 0.999	0.1	Maximal fraction of stripe points not found
inFittingMethod	CircleFittingMethod		CircleFittingMethod.AlgebraicTaubin	Method used to fit a circle
inOutlierSuppression	MEstimator \| None		None	Selects a method for ignoring incorrectly detected points
outCircle	Circle3D \| None			Fitted circle in the middle of found stripe or nothing if the fitting fails
outInnerCircle	Circle3D \| None			Fitted inner circle
outOuterCircle	Circle3D \| None			Fitted outer circle
outStripes	list[SurfaceStripe1D \| None]			Found stripes
outStripePoints	list[Point3D]			Extracted points of middle circle of a surface stripe
outDeviationProfile	Profile \| None			Profile of distances between the actual circle points and the corresponding reference circle points
outAlignedFittingField	CircleFittingField \| None		None	Fitting field used; in the image coordinate system
outHeightProfiles	list[Profile]			Extracted surface height profiles
outResponseProfiles	list[Profile]			Profiles of the edge (derivative) operator response
diagScanSegments	list[Segment2D]			Segments along which the scans were run
diagSamplingAreas	list[Rectangle2D]			Areas from which the input image is sampled

Hardware Acceleration

This operation supports automatic parallelization for multicore and multiprocessor systems.