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ScanMultipleEdges


Header: AVL.h
Namespace: avl
Module: MetrologyBasic

Locates multiple transitions between dark and bright pixels along a given path.

Applications: Very fast detection of multiple edge points - usually for object counting or displacement detection.

Syntax

C++
C#
 
void avl::ScanMultipleEdges
(
	const avl::Image& inImage,
	const ScanMap& inScanMap,
	const EdgeScanParams& inEdgeScanParams,
	float inMinDistance,
	atl::Optional<float> inMaxDistance,
	atl::Optional<const avl::LocalBlindness&> inLocalBlindness,
	atl::Array<avl::Edge1D>& outEdges,
	atl::Array<avl::Gap1D>& outGaps,
	atl::Optional<avl::Profile&> outBrightnessProfile = atl::NIL,
	atl::Optional<avl::Profile&> outResponseProfile = atl::NIL
)

Parameters

Name Type Range Default Description
Input value inImage const Image& Input image
Input value inScanMap const ScanMap& Data precomputed with CreateScanMap
Input value inEdgeScanParams const EdgeScanParams& EdgeScanParams ( ProfileInterpolation: Quadratic4 SmoothingStdDev: 0.6f MinMagnitude: 5.0f EdgeTransition: BrightToDark ) Parameters controlling the edge extraction process
Input value inMinDistance float 0.0 - 0.0f Minimal distance between consecutive edges
Input value inMaxDistance Optional<float> 0.0 - NIL Maximal distance between consecutive edges
Input value inLocalBlindness Optional<const LocalBlindness&> NIL Defines conditions in which weaker edges can be detected in the vicinity of stronger edges
Output value outEdges Array<Edge1D>& Found edges
Output value outGaps Array<Gap1D>& Gaps between consecutive edges
Output value outBrightnessProfile Optional<Profile&> NIL Extracted image profile
Output value outResponseProfile Optional<Profile&> NIL Profile of the edge (derivative) operator response

Optional Outputs

The computation of following outputs can be switched off by passing value atl::NIL to these parameters: outBrightnessProfile, outResponseProfile.

Read more about Optional Outputs.

Description

The operation scans the image using inScanMap previously generated from a scan path and detects image edges perpendicular to the path. Depending on the inEdgeScanParams.edgeTransition parameter, edges representing increase or decrease (or both) of image brightness along the path will be taken into account.

When the number of edges to be found is known, one can use the ScanExactlyNEdges.

Note that in case of a scan path which is closed, the parameters controlling the distances between consecutive found objects do not control the distance between the first and the last of the found objects (counting from the beginning of the scan path).

Hints

  • Define inEdgeScanParams.EdgeTransition to detect a particular edge type, and only that type.
  • If too few edges are found, try decreasing inEdgeScanParams.MinMagnitude. Verify this with the values on the outResponseProfile output.
  • If consecutive edges are closer than 6 pixels apart, change inEdgeScanParams.ProfileInterpolation to Quadratic3.
  • Adjust inMinDistance (in pixels) to filter out false edges that appear in proximity to other edges.

Examples

ScanExactlyNEdges locates the edges using a scan map representing the scan path above.

Remarks

Read more about Local Coordinate Systems in Machine Vision Guide: Local Coordinate Systems.

This filter is a part of the 1D Edge Detection toolset. For a comprehensive introduction to this technique please refer to 1D Edge Detection and 1D Edge Detection - Subpixel Precision chapters of our Machine Vision Guide.

See Also

  • CreateScanMap – Precomputes a data object that is required for fast 1D edge detection.
  • ScanSingleEdge – Locates the strongest transition between dark and bright pixels along a given path.
  • ScanExactlyNEdges – Locates a specified number of the strongest transitions between dark and bright pixels along a given path.
  • ScanExactlyNEdges_Direct – Locates a specified number of the strongest transitions between dark and bright pixels along a given path (without a scan map).