WCDMA multiservice uplink capacity of highways cigar-shaped microcells
EURASIP Journal on Wireless Communications and Networking
An overview of the femtocell concept
Bell Labs Technical Journal - Next-Generation Wireline Access Networks
UMTS femtocell performance in massive deployments: Capacity and GoS implications
Bell Labs Technical Journal - Core and Wireless Networks
Power control in two-tier femtocell networks
IEEE Transactions on Wireless Communications
Interference management and performance analysis of UMTS/HSPA+ femtocells
IEEE Communications Magazine
Interference mitigation using uplink power control for two-tier femtocell networks
IEEE Transactions on Wireless Communications
Analysis of Femtocells Deployment with Different Air-Interfaces
UKSIM '10 Proceedings of the 2010 12th International Conference on Computer Modelling and Simulation
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In this work, the multiservice uplink capacity of single and multiple femtocells is given. The COST231 multiwall and multifloor indoor propagation model has been used to calculate the indoor propagation loss. Results show that the uplink capacity of a deployed femtocell will reduce by 2 % if two extra femtocells are deployed in the same building higher and lower of it. Results also show that the uplink capacity is slightly affected if there are several femtocells deployed in the buildings around the one at which the femtocell under study is already exists. It is demonstrated that uplink capacity is interference limited if the femtocell is deployed to serve the users in three floors. Results show that the uplink capacity will be interference and noise limited if the femtocell is deployed to serve the users in five floors. Finally, it is found that the effect of the interference due to the uniformly distributed users within the macrocell around the femtocell is insignificant.