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SHINE is focused around the design and implementation of an end-to-end secure infrastructure for the delivery of multimedia content over integrated satellite-terrestrial networks. The project makes use of a combination of both unicast and network-coded multicast. A number of reference scenarios are envisaged, all relying on in-network caching. The overall security architecture of the SHINE project is comprised of two main building blocks: (i) a satellite-enabled broadcast distribution backbone leveraging network coding in order to improve both performance and security of the transmissions; (ii) a MPEG-DASH/WebRTC-enabled edge distribution network. In-between such building blocks lies a middle layer associated with the secure storage of cached multimedia content chunks.
The project SHINE not only extends to satellite-enabled scenarios the outstanding solutions available for terrestrial communication networks, but also designs innovative mechanisms for the protection from unauthorized access to content-related data, as well as for the secure distribution of real-time multimedia information across hybrid channels leveraging both the unicast and the multicast communication paradigm. With respect to this last point, we propose a novel “combined coding” technique targeting the optimization of multicast-enabled transmissions in the presence of caching. More precisely, we leverage cutting-edge solutions for decentralized random caching which, combined with an original content distribution technique based on coded multicast, allows us to attain “order-optimal” performance. Bearing in mind the articulated structure of the overall content distribution network, which comprises both the satellite-enabled broadcasting trunks (allowing to properly populate edge caches) and the last-mile access networks, we also look after secure, privacy-enhanced, adaptive delivery to the end-users of the contents stored inside edge caches. For this last part we leverage (and improve) state-of-the art solutions coming from the most prominent standardization communities in the field of real-time communications in the Internet.
SHINE has two main distinctive features, associated with, respectively, the broadcast-enabled satellite core and the edge distribution networks. Within the former part of the network, we rely on network coding in order to define a coded multicast technique allowing us to improve both performance and security of communications. At the edges of the distribution network, which also act as in-network caches, we instead leverage cutting-edge streaming technologies (namely, MPEG-DASH and/or WebRTC) in order to optimize content distribution towards the end users of the network. Also in this case, we look after both performance and security, with special reference to the capability of effectively managing digital rights.
A high-level view of the SHINE architecture is reported in the picture below.
The picture highlights the main logical components of the architecture, in terms of macro-blocks and related functionality. Namely, we identify the following elements:
The project starts by identifying the main usage scenarios, while performing a critical review of both security and satellite technologies. We then move to the specification of the overall architecture for the secure delivery of multimedia content in a hybrid satellite-terrestrial network environment. Work is conducted by embracing an engineering approach, which brings to the definition of a testbed for the practical demonstration of satellite-assisted in-network caching scenarios.
The project has just started (February 1st 2017). Preliminary activities have already been conducted and work is currently in full swing for the completion of the tasks associated with the identification of usage scenarios, as well as with the critical review of state-of-the art security and satellite technologies.