Turgay Pamuklu scite author profile

Increasing electricity prices motivates the mobile network operators to find new energy-efficient solutions for radio access networks (RANs). In this study, we focus on a specific type of RAN where the standalone solar panels are used as alternative energy sources to the electrical grid energy. First, we describe this hybrid energy based radio access network (HEBRAN) and formulate an optimization problem which aims to reduce the total cost of ownership (TCO) of this network. Then, we propose a framework that provides a cost-efficient algorithm for choosing the proper size for the solar panels and batteries of a HEBRAN and two novel switch on/off algorithms which regulate the consumption of grid electricity during the operation of the network. In addition, we create a reduced model of the HEBRAN optimization problem to solve it in a Mixed Integer Linear Programming (MILP) Solver. The results show that our algorithms outperform the MILP solution and classical switch on/off methods. Moreover, our findings show that migrating to a HEBRAN system is feasible and has cost-benefits for mobile network operators.

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Reinforcement Learning-Based Deadline and Battery-Aware Offloading in Smart Farm IoT-UAV Networks

Catherine

Pamuklu

Syed

et al. 2022

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Energy-Efficient and Delay-Guaranteed Joint Resource Allocation and DU Selection in O-RAN

Pamuklu¹,

Mollahasani²,

Erol‐Kantarci³

2021

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Optimization of Renewable Green Base Station Deployment

Pamuklu

Ersoy

2013

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Turgay Pamuklu

Reinforcement Learning Based Dynamic Function Splitting in Disaggregated Green Open RANs

Reducing the total cost of ownership in radio access networks by using renewable energy resources

Reinforcement Learning-Based Deadline and Battery-Aware Offloading in Smart Farm IoT-UAV Networks

Energy-Efficient and Delay-Guaranteed Joint Resource Allocation and DU Selection in O-RAN

Optimization of Renewable Green Base Station Deployment

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