A formal definition of the Hough transform: Properties and relationships

Princen, J.; Illingworth, J.; Kittler, Josef

doi:10.1007/bf00122210

Cited by 95 publications

(58 citation statements)

References 19 publications

(29 reference statements)

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“…Kosarevsky and Latypov [7] used Hough transformation to extract features from planar sections obtained via profile measuring machines. The mathematics behind these image recognition techniques can be found in [8].…”

Section: Related Workmentioning

confidence: 99%

Detection of Screw Threads in Computed Tomography 3D Density Fields

Kosarevsky¹,

Latypov²

2013

Measurement Science Review

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Measurements and inspection in production must be rapid, robust and automated. In this paper a new method is proposed to automatically detect screw threads in 3D density fields obtained from computed tomography measurement devices. The described method can be used to automate many operations during screw thread inspection process and drastically reduce operator's influence on the measurement process resulting in lower measurement times and increased repeatability.

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Section: Related Workmentioning

confidence: 99%

Detection of Screw Threads in Computed Tomography 3D Density Fields

Kosarevsky¹,

Latypov²

2013

Measurement Science Review

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“…The main point of this overview is to show that the different transformations are in fact different manifestations of a single unifying transform as has been described earlier, with some minor differences, in [3][4][5][6]. To clarify the definitions and results obtained, we will use the detection of hollow hyper-spheres in D-dimensional space (circles in 2D) throughout the paper.…”

Section: Introductionmentioning

confidence: 97%

The generalized Radon transform: Sampling, accuracy and memory considerations

Hendriks

Ginkel

Verbeek

et al. 2005

Pattern Recognition

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The generalized Radon (or Hough) transform is a well-known tool for detecting parameterized shapes in an image. The Radon transform is a mapping between the image space and a parameter space. The coordinates of a point in the latter correspond to the parameters of a shape in the image. The amplitude at that point corresponds to the amount of evidence for that shape. In this paper we discuss three important aspects of the Radon transform. The first aspect is discretization. Using concepts from sampling theory we derive a set of sampling criteria for the generalized Radon transform. The second aspect is accuracy. For the specific case of the Radon transform for spheres, we examine how well the location of the maxima matches the true parameters. We derive a correction term to reduce the bias in the estimated radii. The third aspect concerns a projection-based algorithm to reduce memory requirements.

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“…3, we show the relative positions for the circles of the calibrator planes. The ellipse parameters are detected by means of a Hough transform (see [10]) with parameter space reduction. This method is often used to detect shapes like lines, circles, and ellipses.…”

Section: Introductionmentioning

confidence: 99%

Robust detection and ordering of ellipses on a calibration pattern

Álvarez

Salgado

Sánchez

2007

Pattern Recognit. Image Anal.

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-The aim of this work is to accurately estimate from an image the parameters of some ellipses and their relative positions with respect to a given pattern. The process is characterized because it is fully automated and is robust against image noise and occlusions. We have built a calibrator pattern with two planes each containing several ordered circles in known 3D positions. Our method is able to estimate the position of every ellipse and to put them into correspondence with the original calibrator circles.

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A formal definition of the Hough transform: Properties and relationships

Cited by 95 publications

References 19 publications

Detection of Screw Threads in Computed Tomography 3D Density Fields

Detection of Screw Threads in Computed Tomography 3D Density Fields

The generalized Radon transform: Sampling, accuracy and memory considerations

Robust detection and ordering of ellipses on a calibration pattern

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