Real-Time Selective Video Encryption based on the Chaos System in Scalable HEVC Extension
Résumé
In this paper we propose a real-time selective video encryption solution in the scalable extension of High Effciency Video Coding
(HEVC) standard, referred to as SHVC. The proposed scheme encrypts a set of sensitive SHVC parameters with a minimum delay
and complexity overheads. The encryption process is performed at the CABAC binstring level and fulfils both constant bitrate and
format compliant video encryption requirements. In addition, it preserves all SHVC functionalities, including bitstream extraction
for mid-network adaptation and error resilience.
We compare the performance of three selective SHVC encryption schemes: the first scheme encrypts only the lowest SHVC layer,
the second encrypts all layers and the last scheme encrypts only the highest layer. The performance of the proposed schemes is
assessed over different video encryption criteria, at different scalability configurations and various High Definition (HD) video
sequences. Experimental results showed that encrypt only the lowest layer or all layers enables a high security level, while encrypting
only the highest layer leads to a perceptual encryption solution, by slightly decreasing the highest layer quality. Moreover, the
processing complexity of the proposed solution is assessed in the context of a real-time SHVC decoder. The complexity overhead
remains low and does not exceed 6% of the real-time decoding of SHVC video sequences.
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