Spectrum allocation using fuzzy logic with optimal power in wireless network

Mohammadi, Ali; Dehghani, Mohammad Javad

doi:10.1109/iccke.2014.6993403

Cited by 8 publications

(1 citation statement)

References 21 publications

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“…Then we derive a closed form solution for the proposed formulation. To tackle this problem, authors in [33] solve a resource allocation problems in an iterative fashion whereas [34] propose a Fuzzy Logic approach to solve this problem.…”

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confidence: 99%

Game Theoretic Spectrum Allocation in Femtocell Networks for Smart Electric Distribution Grids

2018

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Ever growing penetration of the behind-the-meter technologies is changing the electricity consumption profiles of end-users. Intelligent coordination of these emerging technologies through a robust communication infrastructure enables their seamless integration with electric utilities' operation. In this context, an efficient and reliable communication infrastructure plays a pivotal role in enabling optimal integration of emerging resources. In this paper, we propose a game-theory based method to enhance efficiency of the underlying communication network. Specifically, we focus on Femtocell communication technology which is one the promising options for improving poor indoor communication coverage. The major drawback for using femtocell communication technology is cross-layer interference of femto users (FUs) and macro users (MUs) which adversely impact network performance. In this paper, we propose a novel approach for sharing spectrum in a cognitive radio system with FUs and MUs as primary and secondary users, respectively. The underlying problem is formulated as Stackelberg game that is joined with a convex optimization problem. In this study, MUs and FUs are assumed to be selfish, rational and motivated to achieve maximum utility function, while MUs are competing to obtain maximum bandwidth. Finally, we present a closed form solution for the proposed approach which obtains a unique Nash Equilibrium and prioritizes the access of MUs to femto-base stations. Simulation results provide proof of concept and verify the effectiveness of our mathematical modeling.

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Game Theoretic Spectrum Allocation in Femtocell Networks for Smart Electric Distribution Grids

2018

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A Comprehensive Study of Game Theory Applications for Smart Grids, Demand side Management Programs and Transportation Networks

Mohammadi

Rabinia

2019

Smart Microgrids

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Game theory is a powerful analytical tool for modeling decision makers strategies, behaviors and interactions. A Decision maker's ac and decisions can benefit or negatively impact other decision makers interests. Game theory has been broadly used in economics, politics and engineering field. For example, game theory can model decision making procedure of different companies competing with each other to maximize their profit. In this chapter, we present a brief introduction of game theory formulation and its applications. The focus of the chapter is noncooperative Stackelberg game model and its applications in solving power system related problems. These applications include but not limited to; expanding transmission network, improving power system reliability, containing market power in the electricity market, solving power system dispatch, executing demand response and allocating resource in a wireless system. Finally, this chapter elaborates on solving a game theory problem through an example.

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Fuzzy Logic-Based User Scheduling Scheme for 5G Wireless Networks and Beyond

Abdelbari¹,

Hacı²

2019

Advances in Intelligent Systems and Computing

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Spectrum allocation using fuzzy logic with optimal power in wireless network

Cited by 8 publications

References 21 publications

Game Theoretic Spectrum Allocation in Femtocell Networks for Smart Electric Distribution Grids

Game Theoretic Spectrum Allocation in Femtocell Networks for Smart Electric Distribution Grids

A Comprehensive Study of Game Theory Applications for Smart Grids, Demand side Management Programs and Transportation Networks

Fuzzy Logic-Based User Scheduling Scheme for 5G Wireless Networks and Beyond

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