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Fast Generalized Sliding Sinusoidal Transforms

Author

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  • Vitaly Kober

    (Center of Scientific Research and Higher Education of Ensenada, Ensenada 22860, BC, Mexico
    Department of Mathematics, Chelyabinsk State University, Chelyabinsk 454001, Russia
    Institute for Information Transmission Problems, Russian Academy of Sciences, Moscow 127051, Russia)

Abstract

Discrete cosine and sine transforms closely approximate the Karhunen–Loeve transform for first-order Markov stationary signals with high and low correlation coefficients, respectively. Discrete sinusoidal transforms can be used in data compression, digital filtering, spectral analysis and pattern recognition. Short-time transforms based on discrete sinusoidal transforms are suitable for the adaptive processing and time–frequency analysis of quasi-stationary data. The generalized sliding discrete transform is a type of short-time transform, that is, a fixed-length windowed transform that slides over a signal with an arbitrary integer step. In this paper, eight fast algorithms for calculating various sliding sinusoidal transforms based on a generalized solution of a second-order linear nonhomogeneous difference equation and pruned discrete sine transforms are proposed. The performances of the algorithms in terms of computational complexity and execution time were compared with those of recursive sliding and fast discrete sinusoidal algorithms. The low complexity of the proposed algorithms resulted in significant time savings.

Suggested Citation

  • Vitaly Kober, 2023. "Fast Generalized Sliding Sinusoidal Transforms," Mathematics, MDPI, vol. 11(18), pages 1-16, September.
    • Handle: RePEc:gam:jmathe:v:11:y:2023:i:18:p:3829-:d:1234372
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    References listed on IDEAS

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    1. M. S. Priyadarshini & D. Krishna & Kurakula Vimala Kumar & K. Amaresh & B. Srikanth Goud & Mohit Bajaj & Torki Altameem & Walid El-Shafai & Mostafa M. Fouda, 2023. "Significance of Harmonic Filters by Computation of Short-Time Fourier Transform-Based Time–Frequency Representation of Supply Voltage," Energies, MDPI, vol. 16(5), pages 1-25, February.
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