摘要:The recent development of Big Data, Internet of Things (IoT) and 5G
network technology offers a plethora of opportunities to the IT industry and
mobile network operators. 5G cellular technology promises to offer connectivity
to massive numbers of IoT devices while meeting low-latency data transmission
requirements. A deficiency of the current 4G networks is that the data from IoT
devices and mobile nodes are merely passed on to the cloud and the
communication infrastructure does not play a part in data analysis. Instead of
only passing data on to the cloud, the system could also contribute to data
analysis and decision-making. In this work, a Big Data driven self-optimized 5G
network design is proposed using the knowledge of emerging technologies
CRAN, NVF and SDN. Also, some technical impediments in 5G network
optimization are discussed. A case study is presented to demonstrate the
assistance of Big Data in solving the resource allocation problem.
其他摘要:The recent development of Big Data, Internet of Things (IoT) and 5G network technology offers a plethora of opportunities to the IT industry and mobile network operators. 5G cellular technology promises to offer connectivity to massive numbers of IoT devices while meeting low-latency data transmission requirements. A deficiency of the current 4G networks is that the data from IoT devices and mobile nodes are merely passed on to the cloud and the communication infrastructure does not play a part in data analysis. Instead of only passing data on to the cloud, the system could also contribute to data analysis and decision-making. In this work, a Big Data driven self-optimized 5G network design is proposed using the knowledge of emerging technologies CRAN, NVF and SDN. Also, some technical impediments in 5G network optimization are discussed. A case study is presented to demonstrate the assistance of Big Data in solving the resource allocation problem.
