Abstract
Device-to-device communications in underlay mode has emerged as a promising way to enhance spectrum efficiency in cellular networks. Recently, relay selection in D2D communications underlaying cellular networks is gaining more research interest. In this paper, we propose two relay selection schemes for D2D communications underlaying cellular networks, Midpoint Relay Selection using Social Trust and Battery Level (MRS-ST-BL) and Midpoint Relay Selection using Social Distance and Battery Level (MRS-SD-BL). These proposed schemes utilize battery power level information of devices together with social trust information of users in the network for relay selection. For performance evaluation, initially we show that the throughput of state-of-the-art schemes Hybrid Relay Selection (HRS) and our previously proposed schemes Midpoint Relay Selection using Social Trust (MRS-ST) and Midpoint Relay Selection Using Social Distance (MRS-SD) decrease, when relays have varying battery power. Then, we compare the performance of our proposed schemes against existing schemes including HRS, MRS-ST and MRS-SD. The performance comparison is done at various social trust scenarios and device densities. We show that our proposed schemes can significantly improve the throughput of D2D communications, particularly when relays have different battery power levels in weak social trust scenarios. Finally, we show that the performance of our proposed scheme MRS-ST-BL varies with the change in battery power threshold.
Highlights
We show that our proposed schemes can significantly improve the throughput of D2D communications, when relays have different battery power levels in weak social trust scenarios
The analysis is done for different social trust scenarios and different node densities
Our proposed schemes Midpoint Relay Selection using Social Trust (MRS-ST)-BL and Midpoint Relay Selection Using Social Distance (MRS-SD)-BL significantly enhance the throughput of Figures 3–6 show the throughput comparison at different social trust scenarios for a high node density network
Summary
Unlike traditional mobile communications in which mobile devices communicate with each other via a base station (BS), device-to-device (D2D) communications allow mobile devices in proximity to directly communicate, bypassing the BS [1]. Enhancement in transmission rate, data offloading, reduction in transmission delay, saving of power usage to improve network capacity are some of the major benefits of D2D communications [2,3]. D2D in underlay mode is one of the most promising ways to handle the shortage of frequency resources [2,4]. Research interest has increased to use a relay for D2D communications in underlay mode [5,6]. The focus of this paper is to find a relay that maximizes the throughput
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