IET Image Processing (Feb 2021)

Fractional‐order generalized Laguerre moments and moment invariants for grey‐scale image analysis

  • Rachid Benouini,
  • Imad Batioua,
  • Khalid Zenkouar,
  • Said Najah

DOI
https://doi.org/10.1049/ipr2.12044
Journal volume & issue
Vol. 15, no. 2
pp. 523 – 541

Abstract

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Abstract Here, a new set of fractional‐order moments, named fractional‐order generalized Laguerre moments (FGLM), is introduced. These proposed moments are defined on the Cartesian coordinate system and their basis functions are represented by the fractional‐order generalized Laguerre polynomials. Contrary to the classical Chebyshev, Legendre and Gegenbauer moments, which provide only global feature, our proposed FGLM have the ability to extract both global and local features. Moreover, a new set of rotation, scale and translation invariants of the FGLM, is derived and introduced for image classification and invariant pattern recognition. Just as important, we have presented a systematic parameter selection method for finding the optimal fractional parameter values with respect to pattern recognition applications. Finally, several recursive methods for reducing the computation time of our proposed invariants are also provided in this study. Therefore, to demonstrate the performance of the introduced fractional‐order moments and moment invariants, a number of experimental analysis are performed in terms of global and local features extraction, robustness to noise, invariance to geometric deformations, object recognition and computational speed. The presented theoretical and experimental results clearly show that the proposed fractional‐order moments and their corresponding invariants could be extremely useful in the field of image analysis.

Keywords