With the advance of fifth generation (5G) networks, network density needs to grow
significantly in order to meet the required capacity demands. A massive deployment of small …

Fifth generation (5G) wireless networks will target at energy and spectrum efficient solutions
to cope with the increasing demands in capacity and energy efficiency. To achieve this joint …

Next generation, ie, fifth generation (5G), cellular networks will provide a significant higher
capacity per area to support the ever-increasing traffic demands. In order to achieve that …

This letter investigates millimetre wave (mmWave) backhaul network flow as affected by the
interplay between deployment/topology, hardware architectures of the nodes and the …

A dense deployment of small cells is one of the key characteristics envisioned for future 5G
mobile networks in order to provide the required capacity increase. To cut cabling costs …

This paper focuses on the problem of finding multiple paths with relay nodes to maximize
throughput for ultra-high-rate millimeter wave (mmWave) backhaul networks in urban …

Recently, since mobile traffic increases rapidly, 5G network is required to support enhanced
mobile broadband (eMBB) communications. Self-backhauling mm Wave overlay …

Due to the dense small cell deployment to cope with the increased data traffic of fifth
generation (5G) networks, the direct backhaul (BH) connection of all small cells to the core …

This paper considers the following question for viable wide-area millimeter wave cellular
networks. What is the maximum extended coverage area of a single fiber site using multi …

This paper considers the following question for viable wide-area millimeter wave cellular
networks. What is the maximum extended coverage area of a single fiber site using multi …