Research Article
Practical Aspects of Interference Management in Wireless Networks Deployment Experiences at CRC
@INPROCEEDINGS{10.1109/TRIDENTCOM.2007.4444704, author={Andr\^{e} L. Brand\"{a}o and Shaun Luong and Mustapha Bennai and John Sydor}, title={Practical Aspects of Interference Management in Wireless Networks Deployment Experiences at CRC}, proceedings={3rd International ICST Conference on Testbeds and Research Infrastructures for the Development of Networks and Communities (TridentCom)}, publisher={IEEE}, proceedings_a={TRIDENTCOM}, year={2008}, month={2}, keywords={network design; co-channel interference; RF management; downlink power control; wireless deployment}, doi={10.1109/TRIDENTCOM.2007.4444704} }
- André L. Brandão
Shaun Luong
Mustapha Bennai
John Sydor
Year: 2008
Practical Aspects of Interference Management in Wireless Networks Deployment Experiences at CRC
TRIDENTCOM
IEEE
DOI: 10.1109/TRIDENTCOM.2007.4444704
Abstract
Delivering broadband to the user end via wireless has been considered a secondary option and exercised only when the wired link solution computes an unsatisfactory investment return. This paradigm is changing, however, with a number of WiFi metropolitan networks promising profitability in niches traditionally operating with cables. It is expected that these new wireless enterprises will face innumerous obstacles of practical nature, as they grow and deploy in large scale. Problems with large scale wireless deployments may range from coexistence and interference amongst different service providers to billing procedures. In such a scenario, the Communications Research Centre (CRC) set out to design, develop, and deploy a wireless broadband system. Besides the challenges of designing a whole system, CRC engineers were faced with important RF management issues and some of which are the subject of this paper, namely: RF management related to TCP/IP packet duplication over the air due to multipath propagation, intrasector communication within a multisectored cell system and the downlink near-far power problem, to name a few. This work highlights critical problems, that we found unique and not reported before, that are most likely to be encountered by emerging networks (WiMax and WiFi) and proposes solutions to overcome them.