Load Balancing for Integrated Access and Backhaul in mmWave Small Cells

Abstract: In this paper, we propose a load-balancing algorithm for small-cell integrated access and backhaul (IAB) networks operating in the millimeter wave (mmWave) band. With the help of mmWave communications, ultra-dense small cell deployment is a key technology for future networks, but it leads to high fiber installation costs. IAB has emerged as a cost-effective and flexible solution because it uses the multi-hop wireless backhaul to the core network via macro base stations (BSs). Multi-hop transmission and spectru… Show more

“…In [13], with the tool of stochastic geometry, the authors examine the performance of mMTC in an ultra-dense network (UDN) environment that utilizes the mmWave band and employs wireless backhaul support for the small cell. In [14], the authors propose a load-balancing algorithm for small-cell-integrated access and backhaul networks operating in the millimeter wave (mmWave) band. The simulation results show that the proposed algorithm not only distributes the load across small cells more evenly but also increases network capacity.…”

Enhancing Small-Cell Capacity with Wireless Backhaul

“…In [13], with the tool of stochastic geometry, the authors examine the performance of mMTC in an ultra-dense network (UDN) environment that utilizes the mmWave band and employs wireless backhaul support for the small cell. In [14], the authors propose a load-balancing algorithm for small-cell-integrated access and backhaul networks operating in the millimeter wave (mmWave) band. The simulation results show that the proposed algorithm not only distributes the load across small cells more evenly but also increases network capacity.…”

Enhancing Small-Cell Capacity with Wireless Backhaul

Spectral and Energy Efficiency in 5G RANs with IAB Operating in Millimeter Wave Bands