Abstract
Future-generation radio access networks (RAN) are projected to fulfill the diverse requirements of user equipment (UE) by adopting a heterogeneous network (HetNet) environment. Necessary integration of different radio access technologies (RAT), such as 2G, 3G, 4G, wireless local area network (WLAN), and visible light communication (VLC) is inevitable. Moreover, UEs equipped with diverse requirements will be capable of accessing some or all the RATs. The complex HetNet environment with diverse requirements of UEs will present many challenges. The HetNet is likely to suffer severely from load imbalance among the base stations (BSs) from inheriting the traditional user association scheme such as max-SINR (signal-to-interference-plus-noise ratio)/max-RSSI (received signal strength indicator), unless some sophisticated schemes are invented. In this paper, a novel scheme is devised for a joint-user association for load balancing, where BSs are densely deployed and UEs typically have a certain degree of mobility. Unlike most of the present works, a dynamic network is considered where the position and channel condition of the UEs are not fixed. We develop two complex and distributed association schemes based on probability and d-choices, while carefully considering both loads of the BSs and SINR experienced by the UEs. Numerical results validate the efficiency of the proposed schemes by showing a received data-rate fairness among UEs and an improvement in the UE’s minimum received data rate.
Highlights
The traffic demand in wireless communication systems has surged over the past few years.This trend will continue in the future because of the growing popularity and heavy usage of wireless devices [1]
We considered a three-tier heterogeneous network (HetNet) environment, proposing user association schemes and dynamic load-balancing through Prob. and d-choices schemes
Unlike the max-SINR, in the Prob. scheme, user equipment (UE) selects the base stations (BSs) in a probabilistic manner upon arrival into the network by considering both SINR and the load of a BS
Summary
The traffic demand in wireless communication systems has surged over the past few years.This trend will continue in the future because of the growing popularity and heavy usage of wireless devices [1]. By 2021, the average global mobile connection speed will surpass 20 Mbps, there will be 1.5 mobile devices per capita, and smart-phones will cross 86% of mobile data traffic. All these developments will lead to an outburst of wireless traffic volume on limited spectrum resources. To meet these surging traffic demands, the requirement of a sophisticated radio access network (RAN) integrated with multiple radio access technologies (RAT) is inevitable. This heterogeneous network (HetNet) will be an integration of different technologies, such as 2G, 3G, 4G, wireless local
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