# On Stochastic Geometry Modeling of Cellular Uplink Transmission With Truncated Channel Inversion Power Control

@article{Elsawy2014OnSG, title={On Stochastic Geometry Modeling of Cellular Uplink Transmission With Truncated Channel Inversion Power Control}, author={Hesham Elsawy and Ekram Hossain}, journal={IEEE Transactions on Wireless Communications}, year={2014}, volume={13}, pages={4454-4469} }

Using stochastic geometry, we develop a tractable uplink modeling paradigm for outage probability and spectral efficiency in both single and multi-tier cellular wireless networks. The analysis accounts for per user equipment (UE) power control as well as the maximum power limitations for UEs. More specifically, for interference mitigation and robust uplink communication, each UE is required to control its transmit power such that the average received signal power at its serving base station (BS…

## 222 Citations

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It is shown that the coverage is highly dependent on the severity of shadowing, the power control scheme, and its parameters, but invariant of the density of deployment of base stations when the shadowing is mild and power control is fractional.

### Outage Probability of Millimeter Wave Cellular Uplink with Truncated Power Control

- Computer Science
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The results show that imposing a maximum power constraint on the user significantly affects the SINR outage probability in the uplink of mmWave cellular networks.

### Truncated Channel Inversion Power Control for the Uplink of mmWave Cellular Networks

- Computer Science2018 IEEE 10th Sensor Array and Multichannel Signal Processing Workshop (SAM)
- 2018

Using the stochastic geometry, expressions for the truncated outage probability and the signal-to-interference-and-noise-ratio (SINR) outage probability for the uplink of mmWave cellular networks are derived.

### Analytical Modeling of Interference Aware Power Control for the Uplink of Heterogeneous Cellular Networks

- Computer ScienceIEEE Transactions on Wireless Communications
- 2016

Stochastic geometry is used to analyze a power control mechanism that keeps the interference generated by each MT under a given threshold and reveals that such an interference aware method can reduce the average power consumption and increase the average spectral efficiency at once.

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- Computer SciencePerform. Evaluation
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### Outage Probability in the Uplink of Multitier Millimeter Wave Cellular Networks

- Computer ScienceIEEE Systems Journal
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A tractable uplink modeling framework for the outage probability of the multitier millimeter wave (mmWave) cellular networks, where the LOS region is approximated as a fixed LOS disk is analyzed.

### Asymptotic Analysis of Normalized SNR-Based Scheduling in Uplink Cellular Networks with Truncated Channel Inversion Power Control

- Computer Science2018 IEEE International Conference on Communications (ICC)
- 2018

This paper derives the SINR CCDF relative to the typical scheduled user by focusing on two incompatible cases, where the scheduler selects a user from all the users in the corresponding Voronoi cell or does not select users near cell edges.

### Stochastic Geometry Modeling of Cellular Uplink Power Control under Composite Rayleigh-Lognormal Fading

- Computer Science2015 IEEE 82nd Vehicular Technology Conference (VTC2015-Fall)
- 2015

It was observed that at low signal-to-interference-plus-noise ratio (SINR) thresholds, complete compensation ofshadowing and partial compensation of path loss improves coverage, while at high SINR thresholds inverting only the effect of shadowing gives a better coverage probability.

### Outage Analysis for D2D Enhanced Heterogeneous Cellular Network under Maximum Power Constraint

- Computer Science2018 IEEE 87th Vehicular Technology Conference (VTC Spring)
- 2018

A tractable modeling paradigm for outage probability on device-to-device (D2D) enhanced K-tier heterogeneous cellular network (HCN) is developed and it is shown that there exists an optimal threshold for maximizing the probability of success D2D communication.

### Energy Efficiency Evaluation of Multi-Tier Cellular Uplink Transmission Under Maximum Power Constraint

- Computer ScienceIEEE Transactions on Wireless Communications
- 2017

Assessment of the energy efficiency of uplink transmission in heterogeneous cellular networks (HetNets), where fractional power control is applied at user equipments (UEs) subject to a maximum transmit power constraint, reveals that, for UE whose path loss is below the transfer path loss, its energy efficiency highly depends on the value of power control coefficient adopted by FPC.

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