Title :
Interference-Aware Self-Deploying Femto-Cell
Author :
Guo, Weisi ; Wang, Siyi
Author_Institution :
Dept. of Electron. & Electr. Eng., Univ. of Sheffield, Sheffield, UK
fDate :
12/1/2012 12:00:00 AM
Abstract :
Femto-cells have been proposed as a throughput boosting solution for indoor users, but a key challenge is how to resolve the interference between neighboring cells. This paper proposes a distributed self-deployment solution to improve the indoor throughput. This investigation considers where to optimally place a femto-cell in a multi-room indoor environment. The novelty of the research is that a closed-form Femto-cell placement expression has been derived, which can maximize the throughput of the indoor building given knowledge of a few key statistical network parameters. The benefit compared to blind placement is that it can achieve a throughput improvement of 20 to 50%. The solution has a high placement error tolerance of 10% of building size. Another benefit is that the optimal solution can maintain an approximately constant level of throughput, irrespective of the indoor building size.
Keywords :
femtocellular radio; indoor radio; radiofrequency interference; statistical analysis; closed-form femtocell placement expression; distributed self-deployment solution; indoor building size; indoor throughput; interference-aware self-deploying femtocellular network; key statistical network parameters; multiroom indoor environment; neighboring cells; placement error tolerance; AWGN; Femtocells; Interference; Quality of service; Simulation; Throughput; Wireless communication; Interference-aware; femto-cell; self-deploying;
Journal_Title :
Wireless Communications Letters, IEEE
DOI :
10.1109/WCL.2012.091312.120576
