Abstract
As more and more mobile video applications contain important and private video data, various video encryption techniques have been proposed to protect them. Many of those applications typically utilize the standard video compression while running on mobile platforms which have limited amount of resources. Therefore, we need to consider not only the protection but also the compression and the energy in the mobile video applications. Accordingly, the selective video encryption which protects partial data within the standard video compression has been challenging thanks to format compliance and low computational complexity. However, various parameters of the video compression and the video encryption result in different amount of visual security, compression efficiency, and energy efficiency. Further, it is difficult to find the one solution to maximize all those performance indices at once since there exist tradeoff relationships among them. Therefore, based on the tradeoff relationships, design space exploration should be required to find the interesting parameter set under the given requirements. For the efficient design space exploration, we propose the BEVS (bitrate and energy-bound visual security) to examine each Joint Video Compression and Encryption scheme in terms of the visual security, the compression efficiency, and the energy efficiency. Utilizing the proposed BEVS in our experimental design space, we achieve up to 36.7% visual security improvement under the empirical budgets.
Highlights
1.1 Background Thanks to the technology advances, the embedded systems have been widely utilized in human lives such as households, industries, stock markets, and hospitals
Based on the proposed Bitrate and energy-bound visual security (BEVS) and customDSE, we efficiently explore the design space of the Joint video compression and encryption (JVCE) to improve the visual security while satisfying the requirements of the energy efficiency and the compression efficiency
5 Results and discussion Based on the BEVS, we explore the design space consisting of various sets of parameters after performing the JVCE for three Quarter common intermediate format (QCIF) video
Summary
1.1 Background Thanks to the technology advances, the embedded systems have been widely utilized in human lives such as households, industries, stock markets, and hospitals. Based on the embedded systems, lots of mobile devices and applications have been designed to conveniently control and activate physical and cyber functionalities of various services. As more and more mobile video applications have been employed for various services, some of them become responsible for critical tasks. They contain important information such as finance, confidentiality, security, and privacy [1,2,3,4,5]. Military have employed several video applications such as the reconnaissance systems using the unmanned aerial vehicles to monitor the important information.
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