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Integral Equation-Wavelet Collocation Method for Geometric Transformation and Application to Image Processing

Author

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  • Lina Yang
  • Yuan Yan Tang
  • Xiang Chu Feng
  • Lu Sun

Abstract

Geometric (or shape) distortion may occur in the data acquisition phase in information systems, and it can be characterized by geometric transformation model. Once the distorted image is approximated by a certain geometric transformation model, we can apply its inverse transformation to remove the distortion for the geometric restoration. Consequently, finding a mathematical form to approximate the distorted image plays a key role in the restoration. A harmonic transformation cannot be described by any fixed functions in mathematics. In fact, it is represented by partial differential equation (PDE) with boundary conditions. Therefore, to develop an efficient method to solve such a PDE is extremely significant in the geometric restoration. In this paper, a novel wavelet-based method is presented, which consists of three phases. In phase 1, the partial differential equation is converted into boundary integral equation and representation by an indirect method. In phase 2, the boundary integral equation and representation are changed to plane integral equation and representation by boundary measure formula. In phase 3, the plane integral equation and representation are then solved by a method we call wavelet collocation. The performance of our method is evaluated by numerical experiments.

Suggested Citation

  • Lina Yang & Yuan Yan Tang & Xiang Chu Feng & Lu Sun, 2014. "Integral Equation-Wavelet Collocation Method for Geometric Transformation and Application to Image Processing," Abstract and Applied Analysis, Hindawi, vol. 2014, pages 1-17, April.
  • Handle: RePEc:hin:jnlaaa:798080
    DOI: 10.1155/2014/798080
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