DML
DML Sharif University of Technology
Multi-Directional Spatial Error Concealment Using
  Aug   2012       Adaptive Edge Thresholding Directional Edge Analysis Directional Entropy Image and Video Concealment Multi-directional Spatial Error Concealment
H. Asheri , H.R. Rabiee , N. Pourdamghani and M. Ghanbari
In this paper, a new method for spatial concealment of missing areas in image and video signals transmitted over error prone infrastructures, is presented. The concealment process is performed in three steps. First, a novel technique is used to estimate the significant edges of missing areas after performing a directional edge analysis on the correctly received neighboring blocks of the missing areas. This technique uses the moments of the neighboring edge magnitudes to obtain an adaptive threshold for rejecting nonsignificant directions. Second, based on the predicted significant directions, an approximation is obtained for each missing pixel. Finally, for each pixel, we compute a weighted average by using two edge correspondence measures as weighting factors. Moreover, the adaptive thresholding of the edges let us include as many edges as necessary in the interpolation process. Experiments show that the proposed method outperforms the previous state of the art methods based on both subjective and objective measures.
Type
Journal
Journal
Transactions on Consumer Electronics
Publisher
IEEE
Volume
58
Issue
3
Accession
13029385
Pages
880-885