Abstract
In transmitting video data securely over Video Sensor Networks (VSNs), since mobile handheld devices have limited resources in terms of processor clock speed and battery size, it is necessary to develop an efficient method to encrypt video data to meet the increasing demand for secure connections. Selective encryption methods can reduce the amount of computation needed while satisfying high-level security requirements. This is achieved by selecting an important part of the video data and encrypting it. In this paper, to ensure format compliance and security, we propose a special encryption method for H.264, which encrypts only the DC/ACs of I-macroblocks and the motion vectors of P-macroblocks. In particular, the proposed new selective encryption method exploits the error propagation property in an H.264 decoder and improves the collective performance by analyzing the tradeoff between the visual security level and the processing speed compared to typical selective encryption methods (i.e., I-frame, P-frame encryption, and combined I-/P-frame encryption). Experimental results show that the proposed method can significantly reduce the encryption workload without any significant degradation of visual security.
Highlights
In transmitting video data over Video Sensor Networks (VSNs), the video data can be sent to and from portable devices such as smartphones [1,2,3,4,5]
Multimedia encryption methods [6,7,8,9,10] based on the chaos cryptography theory [11] can serve to protect video contents
With the raw video data in an uncompressed format, the selective encryption methods generally increase the size of the compressed bit stream; that is, compression efficiency is compromised
Summary
In transmitting video data over Video Sensor Networks (VSNs), the video data can be sent to and from portable devices such as smartphones [1,2,3,4,5]. Since the size of multimedia data is large, efficient encryption methods for protecting content, while satisfying real-time requirements, are necessary [3,4,5]. Multimedia encryption methods [6,7,8,9,10] based on the chaos cryptography theory [11] can serve to protect video contents. These methods have exploited the concept of scrambling image pixels with a secret key. With the raw video data in an uncompressed format, the selective encryption methods generally increase the size of the compressed bit stream; that is, compression efficiency is compromised
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