M. Ghanbari, "Cell-loss concealment in ATM video codes," IEEE Trans. CAS for Video Tech., vol. 3, no. 3, pp. 238-247, June 1993. Home/Search Document Not in Database Summary Related Articles Check |
This paper is cited in the following contexts:
Using Self-Authentication-and-Recovery Images for error.. - Lin, Sow, Chang (2001) (1 citation) (Correct)
.... waveform coding, i.e. redundancy in the waveform coding stage [6] 5) Robust entropy coding, which places redundancy in the entropy coding stage [11, 13] 6) Postprocessing at the decoder, which blindly recover the lost pixels based on their surrounding spatial or temporal neighborhood pixels [3, 15]. In [20] Yin et al. show that the quality of blind recovery can be enhanced by embedding additional features in the image. For instance, they embed the edge directionality information bit of blocks into images. In this paper, we propose a new method of using our ....
M. Ghanbari, "Cell-loss concealment in ATM video codes," IEEE Trans. on Circuits System on Video Technology, Vol. 3, pp. 238-247, June 1993.
Robust Video Coding Algorithms and Systems - Villasenor, Zhang, Wen (1999) (6 citations) (Correct)
....robust video codec. Spatial and temporal interpolations are often utilized in error concealment methods. Examples include Maximally Smooth Recovery ( 11] Projection onto Convex Sets, 12] and various motion vector and coding mode recovery methods such as Motion Compensated Temporal Prediction ([13]) Like the error resilience tools discussed above, the effectiveness of an error concealment strategy is highly dependent on the performance of the resynchronization scheme. If the resynchronization method can accurately localize the error, then the error concealment problem becomes much more ....
M. Ghanbari, "Cell-loss concealment in ATM video codes," IEEE Trans. Circuits Syst. Video Technology, vol.3, pp. 238-247, June,
Streaming Video over the Internet: Approaches and Directions - Wu, al. (2001) (25 citations) (Correct)
....error concealment schemes have been proposed in the literature (refer to Ref. 69] for a good survey) Examples include maximally smooth recovery [67] projection onto convex sets [58] and various motion vector and coding mode recovery methods suchas motion compensated temporal prediction [25]. So far, we have reviewed various application layer QoS control techniques. These techniques are employed by the end systems and do not require any QoS support from the network. If the network is able to support QoS for video streaming, the performance can be further enhanced. In the next ....
M. Ghanbari, \Cell-loss concealment in ATM video codes," IEEE Trans. on Circuits and Systems for Video Technology, vol. 3, no. 3, pp. 238-247, June 1993.
Error Control and Concealment for Video Communication - Review Yao Wang (1998) (117 citations) (Correct)
No context found.
M. Ghanbari, "Cell-loss concealment in ATM video codes," IEEE Trans. CAS for Video Tech., vol. 3, no. 3, pp. 238-247, June 1993.
Optimal Decoder for Block-Transform Based Video Coders - Jung, Antonini, Barlaud (2003) (Correct)
No context found.
M. Ghanbari, "Cell loss concealment in ATM video codes," IEEE Trans. Circuits Syst. Video Technol., vol. 3, pp. 238--247, June 1993.
Error Resilient Decoding of Randomly Impaired MPEG-2 Bit Stream - Kim, Park, Lee (1997) (Correct)
No context found.
M. Ghanbari and V. Seferidis, "Cell-loss concealment in ATM video codes," IEEE Trans. Circuits and Systems for VideoTech.,vol. CSVT-3, pp. 248--258, June 1993.
Online articles have much greater impact More about CiteSeer.IST Add search form to your site Submit documents Feedback
CiteSeer.IST - Copyright Penn State and NEC