International audienceThe fast development of the Self-Organizing Network (SON) technology in mobile networks renders critical the problem of coordinating SON functionalities operating simultaneously. SON functionalities can be viewed as control loops that may need to be coordinated to guarantee conflict free operation, to enforce stability of the network and to achieve performance gain. This paper proposes a distributed solution for coordinating SON functionalities. It uses Rosen's concave games framework in conjunction with convex optimization. The SON functionalities are modeled as linear Ordinary Differential Equation (ODE)s. The stability of the system is first evaluated using a basic control theory approach. The coordination solution ...
Self-organizing network (SON) is a well-known term used to describe an autonomous cellular network. ...
With an increasing number of SON functions deployed in cellular radio networks, conflicts between th...
We consider a distributed SON (D-SON) architecture where the interaction of different self-organizin...
International audienceThe fast development of the Self-Organizing Network (SON) technology in mobile...
Abstract—The fast development of the Self-Organizing Network (SON) technology in mobile networks ren...
International audienceFuture communication networks are expected to feature autonomic (or self-organ...
We consider a distributed SON (D-SON) architecture where the interaction of different self-organizin...
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...
©2018 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...
As a reply to the increasing demand for fast mobile network connections, the concept of Self-Organiz...
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...
The mobile network of Orange in France comprises more than 100 000 2G, 3G and 4G antennas with sever...
Self-organizing network (SON) is a well-known term used to describe an autonomous cellular network. ...
With an increasing number of SON functions deployed in cellular radio networks, conflicts between th...
We consider a distributed SON (D-SON) architecture where the interaction of different self-organizin...
International audienceThe fast development of the Self-Organizing Network (SON) technology in mobile...
Abstract—The fast development of the Self-Organizing Network (SON) technology in mobile networks ren...
International audienceFuture communication networks are expected to feature autonomic (or self-organ...
We consider a distributed SON (D-SON) architecture where the interaction of different self-organizin...
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...
©2018 IEEE. Personal use of this material is permitted. Permission from IEEE must be obtained for al...
As a reply to the increasing demand for fast mobile network connections, the concept of Self-Organiz...
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...
The mobile network of Orange in France comprises more than 100 000 2G, 3G and 4G antennas with sever...
Self-organizing network (SON) is a well-known term used to describe an autonomous cellular network. ...
With an increasing number of SON functions deployed in cellular radio networks, conflicts between th...
We consider a distributed SON (D-SON) architecture where the interaction of different self-organizin...