Title :
Spatial and Temporal Error Concealment Techniques for Video Transmission Over Noisy Channels
Author :
Kung, Wei-Ying ; Kim, Chang-Su ; Kuo, C. C Jay
Author_Institution :
Motorola Adv. Technol., San Diego, CA
fDate :
7/1/2006 12:00:00 AM
Abstract :
Two novel error concealment techniques are proposed for video transmission over noisy channels in this work. First, we present a spatial error concealment method to compensate a lost macroblock in intra-coded frames, in which no useful temporal information is available. Based on selective directional interpolation, our method can recover both smooth and edge areas efficiently. Second, we examine a dynamic mode-weighted error concealment method for replenishing missing pixels in a lost macroblock of inter-coded frames. Our method adopts a decoder-based error tracking model and combines several concealment modes adaptively to minimize the mean square error of each pixel. The method is capable of concealing lost packets as well as reducing the error propagation effect. Extensive simulations have been performed to demonstrate the performance of the proposed methods in error-prone environments
Keywords :
interpolation; mean square error methods; telecommunication channels; video coding; video communication; decoder-based error tracking model; directional interpolation; dynamic mode-weighted error concealment method; error propagation effect; intra-coded frames; lost macroblock; mean square error; noisy channels; spatial error concealment technique; temporal error concealment technique; video transmission; Decoding; Discrete cosine transforms; Fading; Frequency; Internet; Interpolation; Mean square error methods; Robustness; Video compression; Wireless sensor networks; Directional interpolation; minimum mean square error (MMSE) decoding; robust video transmission; spatial error concealment; temporal error concealment;
Journal_Title :
Circuits and Systems for Video Technology, IEEE Transactions on
DOI :
10.1109/TCSVT.2006.877391
