Abstract
Heterogeneous networks are rapidly emerging as one of the key enablers of beyond fifth-generation (5G) wireless networks. It is gradually becoming clear to the network operators that existing cellular networks may not be able to support the traffic demands of the future. Thus, there is an upsurge in the interest of efficiently deploying small-cell networks for accommodating a growing number of user equipment (UEs). This work further extends the state-of-the-art by proposing an optimization framework for reducing the power consumption of small-cell base stations (BSs). Specifically, a novel algorithm has been proposed which dynamically switches off the redundant small-cell BSs based on the traffic demands of the network. Due to the dynamicity of the formulated problem, a new UE admission control policy has been presented when the problem becomes infeasible to solve. To validate the effectiveness of the proposed solution, the simulation results are compared with conventional techniques. It is shown that the proposed power control solution outperforms the conventional approaches both in terms of accommodating more UEs and reducing power consumption.
Highlights
The world with its ever-growing population and the continual increasing use of videos and the rise of Internet-of-things (IoT) is having an increase of wireless data traffic at a rate of over 50% per year per subscriber [1]
It can be noted that an increase in the target signal-to-intereference-and-noise ratio (SINR) results in more power consumption of the small-cell base stations (BSs)
Heterogeneous networks are going to play a key role beyond 5G networks
Summary
The world with its ever-growing population and the continual increasing use of videos and the rise of Internet-of-things (IoT) is having an increase of wireless data traffic at a rate of over 50% per year per subscriber [1]. Addressing this demand, the wireless communication sector is evolving into the generation of communication, which is the fifth-generation (5G) and wireless technology [2]. The huge amount of mobile device traffic will be tough for the cellular network to handle all on its own.
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