Sealed Bid Single Price Auction Model (SBSPAM)-Based Resource Allocation for 5G Networks
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Sealed Bid Single Price Auction Model (SBSPAM)‑Based Resource Allocation for 5G Networks Panduranga Ravi Teja1 · Pavan Kumar Mishra1
© Springer Science+Business Media, LLC, part of Springer Nature 2020
Abstract The rapid increase in the number of devices associated with the cellular network; fulfilling their demands is one of the significant challenges for next-generation networks (5G). The existing schemes improve the network throughput by allowing to share the channels between the cellular user (CU) and device-to-device (D2D) users in one-to-one or one-tomany manners. However, none of the existing schemes does deal with minimizes the usage of resource blocks as well as improve network throughput. Therefore, in this paper, we propose a sealed bid single price auction model-based resource allocation scheme for 5G networks. The proposed scheme is divided into two steps. In the first step, cellular user broadcast a beacon packet into a network for identifying the nearby cellular users those are in the same mode. Nearby cellular users responded immediately to the broadcasted cellular user for forming a group. In the second step, the base station will perform a sealed bid single price auction model among participant cellular users with the amount of data to be transferred at the base station side and signal-to-interference plus noise ratio (SINR) as their valuations for bidding. The winner of this auction model forms a D2D pair with broadcasted cellular users, and both cellular users will send data with a single resource block. The proposed scheme not only reduces the usage of resource block it also increases the throughput of the network. Moreover, our results show that the proposed scheme achieves a performance gain in terms of the average system sum rate compared to existing resource allocation schemes. Keywords Auction theory · Cellular user · D2D user · Resource block
1 Introduction Mobile services and applications, empowering us to interface with the world anywhere and anytime, are changing people’s everyday routine with extensive mobile facilities, including online multimedia streaming, and so on. In the forthcoming days, more and * Pavan Kumar Mishra [email protected] Panduranga Ravi Teja [email protected] 1
Department of Information Technology, National Institute of Technology, Raipur 492010, India
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additional devices will be associated with evolved node B (eNB)/base station (BS), and many novel facilities will be reinforced from smart cell phones. This situation on mobile traffic will prompt to the more rapid surge in mobile user’s traffic, particularly in condensed user regions [1].To provide the swift progression of data facilities and successfully exploit the system resource with small suspension and budget, Device-to-Device (D2D) communication scheme was recommended in [2–4]. In this scheme, two mobile users are adjacent, establishes a direct connection among them. This not only considerably decreases the eNB load and communicatio
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