International Conference Papers

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Author: search.filters.author.Bouchama, SamiraSubject: search.filters.subject.H264/AVC video standard

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    Reversible data hiding scheme for the H.264/AVC codec
    (2013-06-24) Bouchama, Samira; Hamami, Latifa; Aliane, Hassina
    Very few reversible data hiding methods are proposed for compressed video and particularly for the H.264/AVC video codec, despite the importance of both of the watermarking reversibility criterion and the codec. The reversible watermarking techniques of images, when applied to the compressed video, can affect particularly the video quality and bitrate. Thus, to make these techniques applicable, the embedding capacity is usually reduced. Therefore an adaptation is necessary to improve the tradeoff between the embedding capacity, the visual quality and the bitrate of the watermarked video. In this paper, we investigate the possibility to introduce the DCT based reversible data hiding method, proposed initially for compressed images, to H.264/AVC codec. The embedding is applied during the encoding process, in the quantized DCT coefficients of I and P frames. To enhance the embedding capacity a mapping rule is used to embed three bits in one coefficient. Results show that exploiting the P frames improves considerably the video quality and the embedding capacity.
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    Watermarking techniques applied to H264/AVC video standard
    (2010-04-21) Bouchama, Samira; Hamami, Latifa; Aliane, Hassina
    Video watermarking describes the process of embedding information in video to satisfy applications such as the protection of intellectual property and the control of video authentication. In this field, researchers orient their investigations towards the new video standard H264/AVC which is increasingly used because of the coding efficiency it provides comparing to the previous standards. The different modules of this standard are exploited to embed watermark while responding to the application demands in terms of fragility or robustness to certain attacks and in terms of maintaining video quality and video bit rate. The aim of this paper is to give a global vision on the H264/AVC and to present some robust and fragile watermarking techniques applied to this video standard.