Error concealment based on directional interpolation
IEEE Transactions on Consumer Electronics
Concealment of damaged block transform coded images using projections onto convex sets
IEEE Transactions on Image Processing
Second-order derivative-based smoothness measure for error concealment in DCT-based codecs
IEEE Transactions on Circuits and Systems for Video Technology
IEEE Transactions on Circuits and Systems for Video Technology
Recovery of corrupted image data based on the NURBS interpolation
IEEE Transactions on Circuits and Systems for Video Technology
Novel sequential error-concealment techniques using orientation adaptive interpolation
IEEE Transactions on Circuits and Systems for Video Technology
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In this paper, we present a new intra-frame error concealment algorithm with pixel matching and directional interpolation. First, we apply the Smith-Waterman algorithm to image pixels around a corrupted image region. This process provides best-aligned pixel pairs from boundary pixels around the corrupted image region to dynamically estimate local image textures. Then, with derived corresponding pixel pairs, we use directional interpolation to recover image pixels in the corrupted image region. With both matching algorithm and directional interpolation, we match pixels using the pixel sequences from the upper and lower of the lost region, the pixel sequences from the left and the right of the lost region, the pixel sequences from the upper and the left of the lost region, and pixel sequences from the lower and the right of the lost region. We select the best matching based on the set up criterion and use them for error concealment. From experimental results, the proposed intra-frame error concealment provides the enhancement of the dynamic capability in capturing the image texture comparing to previous works as well as subjective and objective quality improvement of concealment results in recovering the lost region of images comparing to previous works.