In this paper, we propose a self-optimization coverage function for LTE femtocells embedded in a macrocell area. In this approach each Femtocell Base Station continuously adapts the operation mode according to the traffic conditions in order to fulfill the following objectives: improve the overall system capacity, reduce co-channel interference between adjacent femtocells, improve energy efficiency of the overall system. The proposed algorithm is distributed without any signaling overhead compared to a centralized solution. In a low load scenario our power control scheme limits the number of simultaneously activated femtocells, achieving a significant power saving on the entire femtocell network. As the number of active users increases, each Femto Base Station adapts its transmit power, and thus the coverage, as a function of the traffic demand, aiming to offload more traffic from the macrocell. This results in an improved overall system capacity and a larger energy efficiency of the overall cellular network.

An energy saving approach for femtocell coverage function

PANNO, Daniela Giovanna Anna
2013-01-01

Abstract

In this paper, we propose a self-optimization coverage function for LTE femtocells embedded in a macrocell area. In this approach each Femtocell Base Station continuously adapts the operation mode according to the traffic conditions in order to fulfill the following objectives: improve the overall system capacity, reduce co-channel interference between adjacent femtocells, improve energy efficiency of the overall system. The proposed algorithm is distributed without any signaling overhead compared to a centralized solution. In a low load scenario our power control scheme limits the number of simultaneously activated femtocells, achieving a significant power saving on the entire femtocell network. As the number of active users increases, each Femto Base Station adapts its transmit power, and thus the coverage, as a function of the traffic demand, aiming to offload more traffic from the macrocell. This results in an improved overall system capacity and a larger energy efficiency of the overall cellular network.
2013
LTE femtocell; offloading; energy efficiency
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/20.500.11769/84856
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