Abstract
By caching the most popular content into mobile devices, users can retrieve content directly from nearby devices through Device to Device (D2D) communications, which can significantly reduce backhaul traffic and improve network performance. Most existing D2D cache placement strategies are proactive approaches, which cannot deal with the problem of timely cache updating. In this paper, we propose a network coding-based socially-aware D2D caching strategy, which takes geographical proximity and the social relationships of users into consideration. First, a physical D2D network with high communication reliability is built according to the geographical proximity, composed of devices with high probability of communicating to each other through stable D2D communications. According to the social relationship between users within the physical D2D network, we partition the devices into communities and rank the devices within same community by their influence degree. Within a community, each caching decision is made independently according to the user-content contribution degree. To calculate the contribution degree, the impact between devices on requesting same content is modeled using an Indian Buffet Process. Devices cache coded blocks instead of the whole content to improve caching efficiency. Simulation results show that the proposed strategy achieves higher cache hit and sum rates compared to other schemes.
Highlights
According to the Cisco VNI report [1], with the rapid developme of smart phones, global mobile data traffic will increase seven-fold between 2017 and 2022, by which time mobile video will constitute nearly 79 percent of that traffic
NETWORK CODING BASED SOCIALLY-AWARE CACHING STRATEGY we introduce a network coding-based D2D caching model which takes into account the geographical and social relationship between devices
SIMULATIONS we study the performance of the network coding-based socially-aware D2D (NCSD) and three existing D2D caching and communication approaches: Maximal Closeness (MC) [19], Zipf-based Random Caching (ZRC) [13] and Most Popular Caching (MPC) [34]
Summary
According to the Cisco VNI (visual-networking-index) report [1], with the rapid developme of smart phones, global mobile data traffic will increase seven-fold between 2017 and 2022, by which time mobile video will constitute nearly 79 percent of that traffic. Zhang et al captured a physical wireless network layer according to users’ encounter histories in daily activities [19] They proved that the Indian Buffet Process (IBP) is able to model the impact of other users in same community on requesting content [20]. We propose a network coding-based socially-aware D2D (NCSD) caching scheme. Communities are constructed according to the geographical proximity and social proximity of their users, while network coding is used to improve network performance. Devices cache block(s) independently according to a user-content contribution degree calculated by the BS.
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