Abstract
Mobile Radio Networks produces many of Operations, Administration, and Maintenance (OAM) data used by operators for network operational assurance. These data include multiple and diverse performance measurements and indicators that characterize the behavior of the radio cells. Being able to properly cluster the apparently dissimilar behaviors exhibited by a large number of individual cells into a reduced set of prototype patterns constitutes a valuable tool to support multiple processes such as cell configuration optimization or fault performance root cause analysis. While powerful clustering methods such as Self Organized Maps (SOM) exist, there is practically no literature showing the applicability of these methods of OAM datasets with a high number of attributes (>20) collected from live network deployments. Moreover, the applicability of the clustering methods does not come free of open questions since, for instance, when using SOM there is no explicitly obtained information about clusters after the SOM training in the underlying data, so the k-means technique for grouping SOM units has to be applied afterward. In this context, this paper describes a methodology to cluster radio cells based on a combination of SOM and K-means methods. The methodology is applied to extract cell patterns of the characterization of the long-term behavior (15 days' observation period) and short-term behavior (hourly observation periods) of mobile cells. OAM datasets collected from a live 4G/LTE network deployed in a major European city are used in the analysis.
Highlights
Tightly integrated with Artificial Intelligence (AI) technologies, the exploitation of data analytics is anticipated to being a game-changer for network operators at all levels, ranging from top business, service, and network management levels down to the level of driving the operation of specific functions embedded within the network nodes, for instance, how to implement data transactions among mobile users in customers care management field is a hot research issue [1]
This article is based on the data mining method and applied it to the research of LTE cell behavior, which is analyzing the characteristics of each cluster and tapping potential high-quality cells according to different key performance indicators (KPIs)
Self Organized Maps (SOM)-K has provided the results of combining traditional methods and expertise verified according to long- and short-term behaviors of cell patterns
Summary
Integrated with Artificial Intelligence (AI) technologies, the exploitation of data analytics is anticipated to being a game-changer for network operators at all levels, ranging from top business, service, and network management levels (e.g. customers care management, service fault management, network performance management) down to the level of driving the operation of specific functions embedded within the network nodes (e.g. traffic routing and Quality of Service [QoS] parameter selection based on network data analytics), for instance, how to implement data transactions among mobile users in customers care management field is a hot research issue [1]. After training is completed, the network makes each node of the output layer become a neuron, which is sensitive to a certain pattern class through the method of self-organization, and the corresponding internal weight vector of each node becomes the central vector of each input pattern class. This center vector can be used as a primary center vector in the k method algorithm for performing accurate secondary aggregation.
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