Abstract Self-Organizing Networks (SON) is a collection of functions for automatic
configuration, optimization, and healing of networks and mobility optimization is one of the …

Self-organizing networking (SON) is an automation technology designed to make the
planning, configuration, management, optimization and healing of mobile radio access …

Ultra-dense heterogeneous networks (HetNets) are deployment scenarios in the advent of
fifth generation (5G) and beyond network generations. A massive number of small base …

In this paper, we propose a machine learning-based mobility robustness optimization
algorithm to optimize handover parameters for seamless mobility under dynamic small-cell …

In the self-organizing networks, mobility load balancing (MLB) and mobility robustness
optimization are two significant functions. There is a close relationship between them, as …

Optimal settings for Handover parameters (Hysteresis and Time-to-Trigger) depend on user
velocities in the network. The Self-Organization Networks (SON) standard defines the …

Mobility Robustness Optimization (MRO) is a use-case of Self-Organizing Networks (SON)
for LTE that aims to optimize handover performance automatically. Conventional MRO …

Ensuring reliable and stable communication during the movements of mobile users is one of
the key issues in mobile networks. In the recent years, several studies have been conducted …

Mobility robustness optimization (MRO) is a fundamental issue regarding self-optimization
network (SON). In long-term evolution-advanced (LTE-A), handover (HO) optimization in …

Mobility Load Balancing (MLB) is one of the most important functions of Self-Organizing
Networks (SON) in Long Term Evolution (LTE). The conventional MLB schemes based on …