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This paper presents new mmWave-based cellular system as one of means to achieve the capacity requirement of 5G mobile communications. The base station of new system covers its service area with spot beams formed by many beamforming antennas, and one beam can be composed of multiple frequency allocation beam component carriers in which one broadband bandwidth is divided into multiple sub-bands at the millimeter frequency. The best feature of new cellular architecture is the multi-layered FA dynamic cell configuration and it means that one or more beam component carrier(s) can be grouped and then operated as one cell. The effect of this dynamic cell configuration is to avoid interference among cells via the association among multi-layered FAs and to imitate pseudo-small cells and pseudo-macro cell like 3GPP small cell enhancement architecture (user equipment in small cell enhancement architecture can use coverage layer (macro cell(s)) for mobility robustness and capacity layer (small cells) for capacity offering). In this paper, we design new system, its basic operation and evaluate its capacity to confirm the possibility as an alternative of 5G mobile communications.

목차

Abstract
 1. Introduction
 2. System Architecture
  2.1. Base Station
  2.2. Mobile Station
 3. Basic System Operation
 4. Simulation
 5. Conclusion
 Acknowledgements
 References

키워드

millimeter mmWave cellular beam beamforming capacity small cell SCE small cell enhancement CA carrier aggregation CoMP coordinated multi-point cellular system 5G

저자

• Soon-Gi Park [ Electronics and Telecommunications Research Institute ]
• Yong-Seouk Choi [ Electronics and Telecommunications Research Institute ]

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