[Legacy Report] Empower 5G Wireless with Big Data Analytics and Ultra-Dense Small Cells Networks

#5G #Wireless #UDN #SDN #OPEX #QoE

5G wireless aims to achieve the goals of 1,000 times higher system capacity, five times reduced end-to-end latency, 10 times longer battery life, and 100 more connected devices compared to the current 4G wireless systems. Some 5G key technology enablers, such as new millimeter wave transmissions and massive MIMO, have shown promising results from the viewpoint of the physical layer. However, the challenge for 5G wireless is not just delivering one gigabyte per user daily, but personalizing every bit and being profitably as well as timely. Therefore, we are motivated to envision a 5G approach from the network and application aspects, driven by human centric intelligent Internet of Things (i-IoT) application trends. In this 5G approach, key enabling technologies consist of big data empowered self-organized networks and human activity recognition, and smart management of ultra-dense small cells networks (UDN). To change the current wireless networks from reactive to proactive, and from cell-centric to human (device)-centric, software-defined networking (SDN) will play a key role for 5G wireless in dynamic base station reconfiguration for reducing operational expenditure (OPEX), and dynamic service chaining for enhancing customers’ quality of experience (QoE), respectively. We show some promising results based on the proposed technology enablers, and discuss new research directions towards the intelligent broadband 5G wireless in the future.

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• Newark, New Jersey
• United States

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• Co-sponsored by NJIT, AP03/MTT17, CAS04/ED15