Interest points detection based on local frequency information of an image

In this paper we propose a novel technique for detecting rotation and scale invariant interest points from the local frequency representation of an image. Local or instantaneous frequency is the spatial derivative of the local phase, where the local phase of any signal can be found from its Hilbert...

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Bibliographic Details
Main Authors: Khan, J.F., Adhami, R.R., Bhuiyan, S.M.A.
Format: Conference Proceeding
Language:English
Subjects:
affine invariant
Computer vision
Detection algorithms
Detectors
Frequency estimation
Hilbert transform
Image edge detection
interest point
Parametric statistics
Phase measurement
repeatability rate
Robustness
scale selection
Stability criteria
Terminology
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Summary:In this paper we propose a novel technique for detecting rotation and scale invariant interest points from the local frequency representation of an image. Local or instantaneous frequency is the spatial derivative of the local phase, where the local phase of any signal can be found from its Hilbert transform. Local frequency estimation can detect edge, ridge, corner and texture information at the same time and shows high values at those dominant features of an image. For each pixel, we select an appropriate width of the window for computing the derivative of the phase. In order to select the width of the window for any given pixel, we make use of the measure of the extent to which the phases, in the neighborhood of that pixel, are in the same direction. The local frequency map, thus obtained, is then thresholded by employing a global thresholding approach to detect the interest or feature points. Repeatability rate, a performance evaluation criterion for an interest points detector, is used to check the geometric stability of the proposed method under different transformations. We present simulation results of the detection of feature points from an image and the repeatability rate as a function of image rotation and scale changes. The results prove the efficacy of the proposed feature points detection algorithm.
ISSN:1091-0050
1558-058X
DOI:10.1109/SECON.2008.4494358