Multi-directional interpolation for spatial error concealment
IEEE Transactions on Consumer Electronics
The EREC: an error-resilient technique for coding variable-length blocks of data
IEEE Transactions on Image Processing
Cell-loss concealment techniques for layered video codecs in an ATM network
IEEE Transactions on Image Processing
Concealment of damaged block transform coded images using projections onto convex sets
IEEE Transactions on Image Processing
Overview of fine granularity scalability in MPEG-4 video standard
IEEE Transactions on Circuits and Systems for Video Technology
Error-resilient video coding using multiple description motion compensation
IEEE Transactions on Circuits and Systems for Video Technology
Robust H.263+ video transmission using partial backward decodable bit stream (PBDBS)
IEEE Transactions on Circuits and Systems for Video Technology
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An analysis on the error robustness of partial backward decodable bit stream (PBDBS) presented by Gao and Tu shows that bits at both ends of video packets are safer than those in the middle when the PBDBS is used. According to this, a new structure of video packet called advanced partial backward decodable bit stream (APBDBS) is proposed in this paper. First, different types of syntax elements in video packets are reordered according to their syntactical importance. The more important (such as motion vectors) are placed at both ends of video packets, while the less important in the middle. Second, MBs in video packets are reordered according to their spatial importance. MBs near to the centers of images are placed close to both ends of video packets while marginal MBs are placed in the middle. The simulation shows that with the APBDBS used, up to 2dB luminance peak signal noise ratio (PSNR) improvement can be found compared with the PBDBS.