Fractional Frequency Reuse Stackelberg Model for Self-Organizing Networks - Archive ouverte HAL
Communication Dans Un Congrès Année : 2011

Fractional Frequency Reuse Stackelberg Model for Self-Organizing Networks

Habib Sidi
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Rachid El-Azouzi

Résumé

—Growth of network access technologies in the mobile environment has raised several new issues due to the interference between the available accesses. Thanks to the currently used access methods such as OFDMA in mobile networks, and LTE systems, the intra-cell interferences are avoided and the quality of service has increased. Nevertheless, the diversity and multiplicity of base stations in the network has left behind, a major problem of inter-cell interferences. In this paper, we focus on the optimization of the total throughput of cellular networks using fractional frequency reuse and allowing each mobile user to individually choose its serving base station. We derive analytically the utilities related to the network manager and mobile users and develop a Stackelberg game to obtain the equilibria. We propose a distributed algorithm that allows the base stations, using a light collaboration, to achieve an efficient utilization of the frequencies, with the optic of maximizing the total system utility. This algorithm is based on stochastic gradient descent which requires some information to be exchanged between neighboring base stations. At user association level, we propose an iterative distributed algorithm based on automata learning algorithm. Both algorithms allow the system to converge to the Stackelberg equilibrium. Furthermore, simulation results carried out based on a realistic network setting show promising results in terms of global utility and convergence issues.
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Dates et versions

hal-01320352 , version 1 (23-05-2016)

Identifiants

  • HAL Id : hal-01320352 , version 1

Citer

Habib Sidi, Rachid El-Azouzi, Majed Haddad. Fractional Frequency Reuse Stackelberg Model for Self-Organizing Networks. IFIP Wireless Days WD, Oct 2011, Niagara Falls, Canada. ⟨hal-01320352⟩
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