To meet the demands of mobile networks toward 2020, 5G has emerged. Compared to 4G,
the 5G network will be deployed in higher-frequency bands, such as 3.5 GHz. Meanwhile, in …

The 5G cellular network is no longer hype. Mobile network operators (MNO) around the
world (eg, Verizon and AT&T in the USA) started deploying 5G networks in mid-frequency …

Fifth generation (5G) is a recent wireless communication technology in mobile networks. The
key parameters of 5G are enhanced coverage, ultra reliable low latency, high data rates …

The fifth–generation (5G) network is developing rapidly. The network coverage directly
influences the quality of service (QoS) of vertical industries. Coverage capability is a crucial …

When planning a 5G network in the sub-6GHz bands, similar cell planning techniques to
LTE can be applied. Looking at the Australian environment, the n78 band (3.3-3.8 GHz TDD) …

This paper presents outdoor field experimental results in the 28-GHz frequency band of a 5G
radio access system where base stations (BSs) and a core network are installed on …

With the envisioned demands of extremely high coverage and excellent network capacity,
the 6G system is a focus of the attention, in both academia and industry. For the upcoming …

Higher frequency bands (> 6 GHz) look promising to meet the proposed 5G data rates, given
the large amount of available spectrum in these bands. However, a rigorous understanding …

The commercialization of 5G is planned by multiple operators worldwide in the coming few
years around 2020. 5G is expected to support new services and higher frequency bands. In …

Today, cellular networks have saturated frequencies below 3 GHz. Because of increasing
capacity requirements, 5th generation (5G) mobile networks target the 3.5 GHz band (3.4 to …