Cooperative small cell networks: high capacity for hotspots with interference mitigation


Because of the high potential to reinforce spectral efficiency and spatial reuse, small cell networks, SCNs, have emerged as a promising solution to boost the capability of mobile communication systems therefore as to satisfy the ever growing demand for prime knowledge rate services. However, while not correct coming up with, the dense deployment of SCNs could cause severe interference, resulting in restricted capacity. In hotspots with a massive number of users, the small cell network is challenged by the very high aggregated capability demand and might fail to guarantee the quality of service of all users. To leverage the benefits of SCNs and overcome the drawbacks, we have a tendency to propose a cooperative little cell network, CSCN, design that jointly utilizes several advanced techniques to boost the capacity of hotspots. In this article, we tend to initial examine the present solutions for capability enhancement and hotspots. We have a tendency to then gift the basic concept of the proposed CSCN architecture, and discuss the connected technical aspects. The high potential of a CSCN in terms of capacity improvement and interference mitigation is demonstrated by a simulation study. Finally, we present many open problems for future analysis primarily based on the CSCN design.

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