The Restoration of Textured Images Using Fractional-Order Regularization | Zendy

Ying Fu | Zendy; Xiaohua Li | Zendy; Liang Lei | Zendy; Yi Zhang | Zendy; Jiliu Zhou | Zendy

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The Restoration of Textured Images Using Fractional-Order Regularization

Author(s) -

Ying Fu,

Xiaohua Li,

Liang Lei,

Yi Zhang,

Jiliu Zhou

Publication year - 2014

Publication title -

mathematical problems in engineering

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.262

H-Index - 62

eISSN - 1026-7077

pISSN - 1024-123X

DOI - 10.1155/2014/356906

Subject(s) - regularization (linguistics) , image restoration , mathematics , piecewise , quadratic equation , noise reduction , noise (video) , image (mathematics) , algorithm , mathematical optimization , domain (mathematical analysis) , artificial intelligence , image processing , computer science , mathematical analysis , geometry

Image restoration problem is ill-posed, so most image restoration algorithms exploit sparse prior in gradient domain to regularize it to yield high-quality results, reconstructing an image with piecewise smooth characteristics. While sparse gradient prior has good performance in noise removal and edge preservation, it also tends to remove midfrequency component such as texture. In this paper, we introduce the sparse prior in fractional-order gradient domain as texture-preserving strategy to restore textured images degraded by blur and/or noise. And we solve the unknown variables in the proposed model using method based on half-quadratic splitting by minimizing the nonconvex energy functional. Numerical experiments show our algorithm's robust outperformance

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