Xinchen Zhang

TL;DR: This paper focuses on the dual-slope path loss function, which is a piece-wise power law and continuous and accurately approximates many practical scenarios, and derives the distributions of SIR, SNR, and finally SINR before finding the potential throughput scaling, which provides insight on the observed cell-splitting rate gain.

TL;DR: An accurate and tractable model is proposed to characterize the uplink SINR and rate distribution in a multi-tier HCN as a function of the association rules and power control parameters and it is shown that the optimal degree of channel inversion increases with load imbalance in the network.

TL;DR: In this paper, the dual-slope path loss function is modeled as a piecewise power law and continuous and accurately approximates many practical scenarios, and the authors derive the distributions of SIR, SNR, and finally SINR before finding the potential throughput scaling, which provides insight on the observed cell splitting rate gain.

TL;DR: In this article, the authors explored the question of how to delay the end of Moore's Law by adding more base stations and access points and thus getting more spatial reuse of the spectrum.

TL;DR: This paper provides explicit finite-integral expressions for the coverage probability with ICIC and ICD, taking into account the temporal/spectral correlation of the signal and interference.