Titlebook: Efficient Integration of 5G and Beyond Heterogeneous Networks; Zi-Yang Wu,Muhammad Ismail,Jiao Wang Book 2020 The Editor(s) (if applicable

GUEER

Introduction: Challenges in 5G+HetNet Integration,F) to higher frequency bands such as millimeter wave (mmWave), Terahertz, and Visible Light bands. Among these high frequency options, visible and infrared lights represent a strong candidate owing to the widely deployed lighting systems. Due to their distinct wave propagation characteristics, effic

inquisitive

Efficient Joint Planning of 5G+ HetNets,and high frequency bands. Since the quality-of-service and energy cost are key parameters in designing energy efficient networks, in this chapter the base station (BS) densities for different frequency bands are optimized to minimize the area power consumption (APC) by taking into account an outage

ICLE

Custodian

,Data-driven Handover Framework in?Mobile 5G+ HetNets, link with quality-of-service (QoS) guarantee in terms of network delay and throughput, vertical handovers are triggered within the HetNet. A cross-layer data-driven approach is adopted to reach optimal handover decisions and tackle the challenges associated with mobility and reliability. We conside

頌揚(yáng)國(guó)家

Data-Driven Multi-homing Resource Allocation in Mobile 5G+ HetNets,hannels from different networks vary at different timescales, which impacts resource allocation for multi-homing connections. We consider one application scenario for a 5G+ HetNet that integrates radio frequency (RF) and visible light base stations (BSs). In such a setting, RF channel gains vary fas

手榴彈

Conclusions,resented in this brief consider integration of radio frequency (RF) and optical (visible light communication (VLC) and infrared light (IR) communication) networks, many of the concepts introduced here can be applied to integrate other high frequency bands such as millimeter wave (mmWave) and Teraher

品牌

宣稱

https://doi.org/10.1007/978-3-642-50867-7on) networks, many of the concepts introduced here can be applied to integrate other high frequency bands such as millimeter wave (mmWave) and Terahertz bands. Below, we summarize the main findings in this brief and we highlight future research directions.

他一致

遠(yuǎn)足

Book 2020 and operational aspects. The integration of high-frequency air interfaces into 5G+ wireless networks can relieve the congested radio frequency (RF) bands. Visible light communication (VLC) is now emerging as a promising candidate for future generations of HetNets. Heterogeneous RF-optical networks