T Jansen, I Balan, S Stefanski… - 2011 IEEE 73rd …, 2011 - ieeexplore.ieee.org
Handover parameter optimization is a self-optimizing network (SON) use case that promises significant performance improvement of the radio network. The basic idea is to adapt the …
K Savitha, C Chandrasekar - arXiv preprint arXiv:1109.4490, 2011 - arxiv.org
Seamless continuity is the main goal and challenge in fourth generation Wireless networks (FGWNs), to achieve seamless connectivity" HANDOVER" technique is used, Handover …
T Velmurugan, S Khara, B Basavaraj - Evolving Systems, 2015 - Springer
In this study, the heterogeneous wireless network is considered. Obviously, it is an integration of two different access networks, namely cellular and WLAN. In the …
Network densification is foreseen as a potential solution to fulfill the 5G spectral efficiency requirements. The spectral efficiency is improved by shrinking base stations'(BSs) footprints …
With the rapid developments of fifth generation (5G) mobile communication networks in recent years, different use cases can now significantly benefit from 5G networks. One such …
A Mohajer, M Bavaghar, H Farrokhi - Reliability Engineering & System …, 2020 - Elsevier
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 …
A Mohajer, M Barari, H Zarrabi - Bulletin de la Société Royale des …, 2016 - popups.uliege.be
With regard to the increasing growth of demands in order to provide various services and high-speed in new generation of mobile telecommunications, one of the challenges ahead …
Mobility Management (MM) techniques have conventionally been centralized in nature, wherein a single network entity has been responsible for handling the mobility related tasks …
A Awada, B Wegmann, I Viering… - IEEE Transactions on …, 2013 - ieeexplore.ieee.org
First, the deployment of the Long-Term Evolution (LTE) system will be concentrated on areas with high user traffic overlaying with the legacy second-generation (2G) or third-generation …