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Communication Dans Un Congrès Année : 2013

Downlink Interference Minimization in Cognitive LTE-Femtocell Networks

Résumé

Minimizing the cross-tier and co-tier interferences while maintaining high system throughput or spectrum efficiency is one of the major fundamental challenges within femtocell networks. Cognitive radio enabled techniques can play a key role in mitigating the interferences effectively by providing more secondary spectrum access opportunities, especially in dense femtocells deployment scenarios. Supported by cognitive radio functionality, femtocell users can access and share the licensed spectra including the frequency bands of both macrocells and other licensed systems (e.g. TV White Spaces) as long as not causing harmful interferences to the coexisting licensed systems. In this paper, based on cognitive sensing, we propose a joint scheme of channel assignment, power allocation and macrocell-femtocell scheduling, so as to minimize the aggregate interferences from the multiple femtocells to the licensed users while taking into account each femtocell's capacity and power budget. Moreover, we come up with the concepts of Physical Cluster (PC) and Virtual Cluster (VC) and synthetically apply the related algorithms to reduce the interferences step by step. Finally, the performances of the proposed algorithms are analyzed, and numerical results have verified the viability and effectiveness of the proposed scheme in managing the femtocell interferences.
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Dates et versions

hal-00868220 , version 1 (01-10-2013)

Identifiants

Citer

Xin Tao, Z. Zhao, Rongpeng Li, Jacques Palicot, Hongguang Zhang. Downlink Interference Minimization in Cognitive LTE-Femtocell Networks. IEEE ICCC 2013, Aug 2013, Xi'an, China. ⟨10.1109/ICCChina.2013.6671101⟩. ⟨hal-00868220⟩
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