Since the advent of 1G through 5G networks, telecommunication industry has gone through
phenomenal transformation in the way we communicate, we work, and we socialize. In …

To satisfy requirements on future mobile network, a large number of small cells should be
deployed. In such scenario, mobility management becomes a critical issue in order to …

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

The 6G network enables a subnetwork-wide evolution, resulting in a “network of
subnetworks”. However, due to the dynamic mobility of wireless subnetworks, the data …

Ultra-dense network deployment is a key technology for potentially achieving the capacity
target of next-generation wireless communication systems. However, such a deployment …

Mobile connections and applications are growing unprecedentedly with the advent and
increasing popularity of wireless services worldwide, which greatly increases the demands …

The satellite-ground integrated network (SGIN), consisting of satellites and ground base
stations, is regarded as the trend to solve the problem of global coverage. However, highly …

The high data traffic requirements of the new generation 5G networks will be satisfied with
effective and efficient mobility and handover management. However, dense or ultra-dense …

Heterogeneous networks (HetNets) are expected to be a key feature of long-term evolution
(LTE)-advanced networks and beyond and are essential for providing ubiquitous broadband …

With the network densification, frequent handovers may degrade mobility reliability, cause
heavy signaling load thus blocking the improvement of network capacity. This paper aims at …