Abstract
Cellular networks are expanding massively due to high data requirements from mobile devices. This has motivated base station densification as an essential requirement for the 5G network. The implication is obvious benefits in enhanced system capacity, but also increased challenges in terms of interference. One important interference management technique which has been widely adopted in cellular networks is frequency reuse. In this article, an analysis is presented based on network interference and energy expended by base stations in downlink communication when Soft frequency reuse (SFR) is deployed. A framework is presented that captures the bandwidth overlaps in SFR across base station assignments, computes the interference probabilities arising and derives new performance equations which are verified using simulations. Results show an improvement of over previous SFR implementations that do not consider the interference probabilities. Thus, a more in-depth and accurate modelling of SFR in 5G networks is achieved. Furthermore, the downlink power allocation is investigated as against other parameters like the center ratio and edge bandwidth. The result shows that signal-to-interference-noise ratio (SINR) and spectral efficiency give different performance under energy consideration. A framework is developed on how to tune a base station to achieve desired network performance in user SINR or cell spectral efficiency depending on the operator’s preference.
Highlights
In recent times, a lot of effort has been geared towards development and implementation of 5G cellular networks both in research circles and the industry
As interference severely affects user equipment (UE) performance and Quality of service (QoS), interference management is an important consideration, and intelligent frequency reuse (FR) is used for inter-cell interference cancellation (ICIC) and efficient resource allocation in cellular networks [2,3,4,5]
As an extension to previous work in [26], new equations are derived for signal-to-interference-noise ratio (SINR) of UE in cellular networks employing Soft frequency reuse (SFR) with consideration for the probability that interference occurs based on overlapping allocation of bandwidth
Summary
A lot of effort has been geared towards development and implementation of 5G cellular networks both in research circles and the industry. As an extension to previous work in [26], new equations are derived for SINR of UE in cellular networks employing SFR with consideration for the probability that interference occurs based on overlapping allocation of bandwidth This framework is verified by simulations to provide a more accurate computation of the SINR compared to previous works. Analysis is presented on the impact of downlink power allocation on UE performance when other factors like the center ratio and edge bandwidth are considered as secondary parameters This contributes clearer analysis of energy management under SFR and will be of immense benefit to research on development of enhanced SFR techniques and for operators who need to set BS parameters to achieve their performance goals
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