The mobility robustness optimization (MRO) problem in LTE self-organizing networks (SON) is a multi-objective optimization problem; it involves a set of non-convex contradicting objective functions that depend on multiple variables such as handover (HO) parameters and user mobility classes. This paper exploits the framework of stochastic processes to develop a novel method of successively choosing a sequence of multi-variate training points for multi-objective optimization. Combined with the collected statistics and a priori knowledge, the proposed method is used in the design of an efficient MRO algorithm. The performance of the algorithm is evaluated by simulations to illustrate significant improvements with respect to both HO-related rat...
One of the consequences of network densification is more frequent handovers (HO). HO failures have a...
Self-organizing network (SON) is a well-known term used to describe an autonomous cellular network. ...
We are witnessing a continuous development of heterogeneous wireless networks, such as cellular syst...
AbstractHeterogeneous network (HetNet) is considered as a prime way to solve the limits of system ca...
This thesis focuses on the effectiveness of Mobility Robustness Optimisation (MRO), a Self Organisin...
The massive growth in mobile data communication requires new more efficient Radio Access Technology ...
This paper presents a self-optimizing algorithm that tunes the handover (HO) parameters of a LTE (Lo...
Self-Organising Network (SON) is a dynamic entity with capability of learning and functionality of s...
In currently deployed cellular networks, a lot of time and effort is put by operators into the optim...
A novel approach to enhance the robustness of handovers in LTE femtocells is presented. A modified S...
In the wake of network densification and multi-band operation in emerging cellular networks, mobilit...
This article introduces an enhanced version of previously developed self-optimizing algorithm that c...
Network densification is regarded as one of the important ingredients to increase capacity for next ...
In mobile cellular networks the handover (HO) algorithm is responsible for determining when calls of...
©2018 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...
One of the consequences of network densification is more frequent handovers (HO). HO failures have a...
Self-organizing network (SON) is a well-known term used to describe an autonomous cellular network. ...
We are witnessing a continuous development of heterogeneous wireless networks, such as cellular syst...
AbstractHeterogeneous network (HetNet) is considered as a prime way to solve the limits of system ca...
This thesis focuses on the effectiveness of Mobility Robustness Optimisation (MRO), a Self Organisin...
The massive growth in mobile data communication requires new more efficient Radio Access Technology ...
This paper presents a self-optimizing algorithm that tunes the handover (HO) parameters of a LTE (Lo...
Self-Organising Network (SON) is a dynamic entity with capability of learning and functionality of s...
In currently deployed cellular networks, a lot of time and effort is put by operators into the optim...
A novel approach to enhance the robustness of handovers in LTE femtocells is presented. A modified S...
In the wake of network densification and multi-band operation in emerging cellular networks, mobilit...
This article introduces an enhanced version of previously developed self-optimizing algorithm that c...
Network densification is regarded as one of the important ingredients to increase capacity for next ...
In mobile cellular networks the handover (HO) algorithm is responsible for determining when calls of...
©2018 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...
One of the consequences of network densification is more frequent handovers (HO). HO failures have a...
Self-organizing network (SON) is a well-known term used to describe an autonomous cellular network. ...
We are witnessing a continuous development of heterogeneous wireless networks, such as cellular syst...