Optimal design of orders of DFrFTs for sparse representations

Xiao Zhi Zhang; Bingo Wing Kuen Ling; Ran Tao; Zhi Jing Yang; Wai Lok Woo; Saeid Sanei; Kok L. Teo

doi:10.1049/iet-spr.2017.0283

Optimal design of orders of DFrFTs for sparse representations

Xiao Zhi Zhang, Bingo Wing Kuen Ling^*, Ran Tao, Zhi Jing Yang, Wai Lok Woo, Saeid Sanei, Kok L. Teo

^*Corresponding author for this work

School of Information and Electronics

Research output: Contribution to journal › Article › peer-review

5 Citations (Scopus)

Abstract

This study proposes an optimal design of the orders of the discrete fractional Fourier transforms (DFrFTs) and construct an overcomplete transform using the DFrFTs with these orders for performing the sparse representations. The design problem is formulated as an optimisation problem with an L₁-norm non-convex objective function. To avoid all the orders of the DFrFTs to be the same, the exclusive OR of two constraints are imposed. The constrained optimisation problem is further reformulated to an optimal frequency sampling problem. A method based on solving the roots of a set of harmonic functions is employed for finding the optimal sampling frequencies. As the designed overcomplete transform can exploit the physical meanings of the signals in terms of representing the signals as the sums of the components in the time-frequency plane, the designed overcomplete transform can be applied to many applications.

Original language	English
Pages (from-to)	1023-1033
Number of pages	11
Journal	IET Signal Processing
Volume	12
Issue number	8
DOIs	https://doi.org/10.1049/iet-spr.2017.0283
Publication status	Published - 1 Oct 2018

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title = "Optimal design of orders of DFrFTs for sparse representations",

abstract = "This study proposes an optimal design of the orders of the discrete fractional Fourier transforms (DFrFTs) and construct an overcomplete transform using the DFrFTs with these orders for performing the sparse representations. The design problem is formulated as an optimisation problem with an L1-norm non-convex objective function. To avoid all the orders of the DFrFTs to be the same, the exclusive OR of two constraints are imposed. The constrained optimisation problem is further reformulated to an optimal frequency sampling problem. A method based on solving the roots of a set of harmonic functions is employed for finding the optimal sampling frequencies. As the designed overcomplete transform can exploit the physical meanings of the signals in terms of representing the signals as the sums of the components in the time-frequency plane, the designed overcomplete transform can be applied to many applications.",

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AU - Zhang, Xiao Zhi

AU - Ling, Bingo Wing Kuen

AU - Tao, Ran

AU - Yang, Zhi Jing

AU - Woo, Wai Lok

AU - Sanei, Saeid

AU - Teo, Kok L.

PY - 2018/10/1

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N2 - This study proposes an optimal design of the orders of the discrete fractional Fourier transforms (DFrFTs) and construct an overcomplete transform using the DFrFTs with these orders for performing the sparse representations. The design problem is formulated as an optimisation problem with an L1-norm non-convex objective function. To avoid all the orders of the DFrFTs to be the same, the exclusive OR of two constraints are imposed. The constrained optimisation problem is further reformulated to an optimal frequency sampling problem. A method based on solving the roots of a set of harmonic functions is employed for finding the optimal sampling frequencies. As the designed overcomplete transform can exploit the physical meanings of the signals in terms of representing the signals as the sums of the components in the time-frequency plane, the designed overcomplete transform can be applied to many applications.

AB - This study proposes an optimal design of the orders of the discrete fractional Fourier transforms (DFrFTs) and construct an overcomplete transform using the DFrFTs with these orders for performing the sparse representations. The design problem is formulated as an optimisation problem with an L1-norm non-convex objective function. To avoid all the orders of the DFrFTs to be the same, the exclusive OR of two constraints are imposed. The constrained optimisation problem is further reformulated to an optimal frequency sampling problem. A method based on solving the roots of a set of harmonic functions is employed for finding the optimal sampling frequencies. As the designed overcomplete transform can exploit the physical meanings of the signals in terms of representing the signals as the sums of the components in the time-frequency plane, the designed overcomplete transform can be applied to many applications.

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Optimal design of orders of DFrFTs for sparse representations

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