Novel Edge Detection Methods for Incomplete and Noisy Spectral Data
نویسندگان
چکیده
We propose three novel methods for recovering edges in piecewise smooth functions from their possibly incomplete and noisy spectral information. The proposed methods utilize three different approaches: #1. the randomly-based sparse Inverse Fast Fourier Transform (sIFT); #2. the Total Variation-based (TV) compressive sensing; and #3. the modified zero crossing. The different approaches share a common feature: edges are identified through separation of scales. To this end, we advocate here the use of concentration kernels [E. Tadmor, Acta Numerica 16 (2007) 305-378], to convert the global spectral data into an approximate jump function which is localized in the immediate neighborhoods of the edges. Building on these concentration kernels, we show that the sIFT method, the TV-based compressive sensing and the zero crossing yield effective edge detectors, where finitely many jump discontinuities are accurately recovered. Oneand two-dimensional numerical results are presented.
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