Enhancing Selective Encryption for H.264/AVC Using Advanced Encryption Standard

Abstract: Abstract-Multimedia information availability has increased dramatically with the advent of mobile devices. But with this availability comes problems of maintaining the security of information that is displayed in public. Many approaches have been used or proposed for providing security for information dissemination over networks, protection system classified with more specific as encryption information, and combination between video compression and encryption to increase information security. The strength of t… Show more

“…In [39] there is an analysis of a system for H.264/AVC I-frame only SE which also brings low computation, low bitrate overhead and decoder format compliance after encryption, though no analysis of the video distortion or image structural distortion arising from partial encryption was made in [39]. As another example employing CABAC-based encryption in [40] only I-and P-frames are selectively encrypted.…”

“…The underlying motivation behind such schemes is that even if the bitstream is captured by packet 'sniffer' software or stored by some means at the receiver device successful decoding of the P-or B-frame compression data depends on being able to decode the corresponding I-frame within a Group of Pictures (GOP) [41]. Therefore, in [39] P-and B-frame data are sent in the clear. However, if it is possible to only encrypt B-frames, as in our experimental scheme, then the computational and bitrate overhead is much reduced.…”

Transparent encryption with scalable video communication: Lower-latency, CABAC-based schemes

“…In [39] there is an analysis of a system for H.264/AVC I-frame only SE which also brings low computation, low bitrate overhead and decoder format compliance after encryption, though no analysis of the video distortion or image structural distortion arising from partial encryption was made in [39]. As another example employing CABAC-based encryption in [40] only I-and P-frames are selectively encrypted.…”

“…The underlying motivation behind such schemes is that even if the bitstream is captured by packet 'sniffer' software or stored by some means at the receiver device successful decoding of the P-or B-frame compression data depends on being able to decode the corresponding I-frame within a Group of Pictures (GOP) [41]. Therefore, in [39] P-and B-frame data are sent in the clear. However, if it is possible to only encrypt B-frames, as in our experimental scheme, then the computational and bitrate overhead is much reduced.…”

Transparent encryption with scalable video communication: Lower-latency, CABAC-based schemes

“…The study in [9] describes the SE on I-frames by extracting them from the H.264 bit-stream and using the AES algorithm for ciphering and deciphering. The scheme reduces the computational cost, but it is nonformat-compliant.…”

“…a) UFL-coded block − pattern is encoded using a 4-bit FL prefix for luma and TU suffix with cutoff value CV = 2 for chroma. b) UEG3-motion vector differences are encoded with a concatenation of a unary prefix and a third-order Exp-Golomb code suffix: for a value MVD, the prefix is a TU coding with the cutoff value CV = 9 of the value min(|MVD|, 9), or, if MVD = 0, just the bit 0. If |MVD| ≤ 9, a suffix is output with the value | MVD |−9 using the EG3 code.…”

“…ek n →HMAC (TEK, ek n Constant || RAND,ek n length) (8) ek n−1 →HMAC(ek n , ek n−1 Constant|| RAND, ek n−1 length) (9) ek n−2 →HMAC(ek n−1 , ek n−2 Constant||RAND, ek n−2 length).…”

An Efficient Security System for CABAC Bin-Strings of H.264/SVC

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