Abstract :
Video transmission over unreliable channels may suffer from the data loss or corruption. To facilitate the transmission, video content is compressed to save the bandwidth. The compression algorithms remove the redundancies in the video signal, meanwhile increasing the dependencies among symbols in the compressed bit-stream. Thus, when errors occur, they may propagate in both space and time. Among various error control techniques, error concealment (EC) is an effective method that is performed at the decoder to mitigate the influence of errors on the quality of reconstructed images. In this paper, a joint spatial and temporal EC algorithm (JSTEC) is presented. First, several existing temporal EC algorithms are combined in an appropriate order. Then, the spatial correlation in the video is exploited in an iterative form to improve the performance of the temporal EC. Experimental results show that JSTEC performs better both in peak signal-to-noise ratio and subjective quality of images than the existing algorithms
Keywords :
correlation methods; data compression; error correction codes; image reconstruction; iterative decoding; spatiotemporal phenomena; video coding; JSTEC; correlation; decoder; error control technique; error mitigation; image quality; image reconstruction; iterative method; spatial-temporal error concealment algorithm; video content compression; video signal; video transmission; Bandwidth; Compression algorithms; Error correction; Image coding; Image reconstruction; Iterative algorithms; Iterative decoding; Propagation losses; Redundancy; Video compression; Error concealment; motion vector interpolation; overlapped motion compensation; video coding;
