Bin Yang scite author profile

It is a great challenge to evaluate the network performance of cellular mobile communication systems. In this paper, we propose new spatial spectrum and energy efficiency models for Poisson-Voronoi tessellation (PVT) random cellular networks. To evaluate the user access the network, a Markov chain based wireless channel access model is first proposed for PVT random cellular networks. On that basis, the outage probability and blocking probability of PVT random cellular networks are derived, which can be computed numerically. Furthermore, taking into account the call arrival rate, the path loss exponent and the base station (BS) density in random cellular networks, spatial spectrum and energy efficiency models are proposed and analyzed for PVT random cellular networks. Numerical simulations are conducted to evaluate the network spectrum and energy efficiency in PVT random cellular networks.Comment: appears in IEEE Transactions on Communications, April, 201

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Spectrum and Energy Efficiency Evaluation of Two-Tier Femtocell Networks With Partially Open Channels

Zhang

Mao

et al. 2014

IEEE Trans. Veh. Technol.

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Abstract-Two-tier femtocell networks is an efficient communication architecture that significantly improves throughput in indoor environments with low power consumption. Traditionally, a femtocell network is usually configured to be either completely open or completely closed in that its channels are either made available to all users or used by its own users only. This may limit network flexibility and performance. It is desirable for owners of femtocell base stations if a femtocell can partially open its channels for external users access. In such scenarios, spectrum and energy efficiency becomes a critical issue in the design of femtocell network protocols and structure. In this paper, we conduct performance analysis for two-tier femtocell networks with partially open channels. In particular, we build a Markov chain to model the channel access in the femtocell network and then derive the performance metrics in terms of the blocking probabilities.

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Dense Small Cell Networks: From Noise-Limited to Dense Interference-Limited

Yang

Mao

Ding

et al. 2018

IEEE Trans. Veh. Technol.

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Abstract-Considering both non-line-of-sight (NLoS) and lineof-sight (LoS) transmissions, the transitional behaviors from noise-limited regime to dense interference-limited regime have been investigated for the fifth generation (5G) small cell networks (SCNs). Besides, we identify four performance regimes based on base station (BS) density, i.e., (i) the noise-limited regime, (ii) the signal-dominated regime, (iii) the interference-dominated regime, and (iv) the interference-limited regime. To characterize the performance regime, we propose a unified framework analyzing the future 5G wireless networks over generalized shadowing/fading channels, in which the user association schemes based on the strongest instantaneous received power (SIRP) and the strongest average received power (SARP) can be studied, while NLoS/LoS transmissions and multi-slop path loss model are considered. Simulation results indicate that different factors, i.e., noise, desired signal, and interference, successively and separately dominate the network performance with the increase of BS density. Hence, our results shed new light on the design and management of SCNs in urban and rural areas with different BS deployment densities.

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Kinematic modeling and machining precision analysis of multi-axis CNC machine tools based on screw theory

Yang

Zhang

Ran

et al. 2019

Mechanism and Machine Theory

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On the Energy-Efficient Deployment for Ultra-Dense Heterogeneous Networks With NLoS and LoS Transmissions

Yang

Mao

et al. 2018

IEEE Trans. on Green Commun. Netw.

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Bin Yang

Spatial Spectrum and Energy Efficiency of Random Cellular Networks

Spectrum and Energy Efficiency Evaluation of Two-Tier Femtocell Networks With Partially Open Channels

Dense Small Cell Networks: From Noise-Limited to Dense Interference-Limited

Kinematic modeling and machining precision analysis of multi-axis CNC machine tools based on screw theory

On the Energy-Efficient Deployment for Ultra-Dense Heterogeneous Networks With NLoS and LoS Transmissions

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