Abstract:
Dense deployment of small cells on different frequency bands using multiple technologies can help address the imminent thousand-fold traffic increase. Heterogeneous network (HetNet) architecture efficiently offloads traffic between tiers and technologies.
Over the years, multi-tier HetNets that share microwave spectrum have been well-studied. Thus, we focus on multi-tier HetNets with microwave and millimeter wave spectrums. Despite its huge capacity, millimeter-wave technology will fail to provide universal coverage, especially indoors, so it will co-exist with a sub-6GHz cellular network.
We use non-cooperative game theory to coordinate user association and spectrum allocation. Distributed solutions are essential in such a difficult environment. Our coordinated approach outperforms current heuristics in extensive simulations.
We also evaluate mmWave density, cell load, and user distribution and density to provide practical 5G HetNet design guidelines. Finally, we evaluate massive MIMO’s benefit for mmWave in such a heterogeneous environment.
Note: Please discuss with our team before submitting this abstract to the college. This Abstract or Synopsis varies based on student project requirements.
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