Self-organizing network (SON) functions have been introduced in the LTE and LTEAdvanced standards by the Third Generation Partnership Project as an excellent solution that promises enormous improvements in network performance. However, the most challenging issue in implementing SON functions in reality is the identification of the best possible interactions among simultaneously operating and even conflicting SON functions in order to guarantee robust, stable, and desired network operation. In this direction, the first step is the comprehensive modeling of various types of conflicts among SON functions, not only to acquire a detailed view of the problem, but also to pave the way for designing appropriate Self-Coordination mechanisms among SO...
With the first 3rd Generation Partnership Project (3GPP) Long Term Evolution (LTE) networks being de...
To remain competitive operators have to continuously improve the capabilities of their networks. Thi...
Future wireless access networks, e.g. LTE and LTE-Advanced, will be empowered by Self-Organizing Net...
Self-organizing network (SON) functions have been introduced in the LTE and LTEAdvanced standards by...
Nowadays smartphones and tablets are used nearly every-where at any time. The need for mobile networ...
In a self-organized Long Term Evolution (LTE) network, different Self-Organizing Network (SON) funct...
In a self-organized Long Term Evolution (LTE) network, different Self-Organizing Network (SON) funct...
We consider a distributed SON (D-SON) architecture where the interaction of different self-organizin...
©2018 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...
In a self-organized Long Term Evolution (LTE) network, different Self-Organizing Network (SON) funct...
Self-organizing network (SON) is a well-known term used to describe an autonomous cellular network. ...
International audienceThe fast development of the Self-Organizing Network (SON) technology in mobile...
We consider a distributed SON (D-SON) architecture where the interaction of different self-organizin...
With an increasing number of SON functions deployed in cellular radio networks, conflicts between th...
Complex distributed applications such as those envisaged in 5G will be built as compositions of inde...
With the first 3rd Generation Partnership Project (3GPP) Long Term Evolution (LTE) networks being de...
To remain competitive operators have to continuously improve the capabilities of their networks. Thi...
Future wireless access networks, e.g. LTE and LTE-Advanced, will be empowered by Self-Organizing Net...
Self-organizing network (SON) functions have been introduced in the LTE and LTEAdvanced standards by...
Nowadays smartphones and tablets are used nearly every-where at any time. The need for mobile networ...
In a self-organized Long Term Evolution (LTE) network, different Self-Organizing Network (SON) funct...
In a self-organized Long Term Evolution (LTE) network, different Self-Organizing Network (SON) funct...
We consider a distributed SON (D-SON) architecture where the interaction of different self-organizin...
©2018 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...
In a self-organized Long Term Evolution (LTE) network, different Self-Organizing Network (SON) funct...
Self-organizing network (SON) is a well-known term used to describe an autonomous cellular network. ...
International audienceThe fast development of the Self-Organizing Network (SON) technology in mobile...
We consider a distributed SON (D-SON) architecture where the interaction of different self-organizin...
With an increasing number of SON functions deployed in cellular radio networks, conflicts between th...
Complex distributed applications such as those envisaged in 5G will be built as compositions of inde...
With the first 3rd Generation Partnership Project (3GPP) Long Term Evolution (LTE) networks being de...
To remain competitive operators have to continuously improve the capabilities of their networks. Thi...
Future wireless access networks, e.g. LTE and LTE-Advanced, will be empowered by Self-Organizing Net...