Paper Info
Title
Interference-Aware Self-Optimizing Carrier Sensor for High Efficiency Wireless LANs in Dense Networks.
Abstract
Wireless local area networks (WLANs) can adopt dynamic channel access technologies such as dynamic bandwidth or channel hopping schemes in order to avoid interference for better link quality. However, in dense networks, the dynamic channel access leads to a higher probability of adjacent channel interference (ACI). The efficiency of IEEE 802.11-based WLANs using multi-channel and wide dynamic ranges is thus severely degraded by ACIs in dense networks. In this paper, we analyze the ACI effect on WLANs and propose an interference-aware self-optimizing carrier sensor design that incorporates a multichannel multi-level carrier sense and adaptive initial gain control scheme. This scheme controls carrier sensing thresholds in each band for multi-level sensors, as well as initial gains for amplifiers. The proposed scheme reduces false carrier sensing and avoids saturation of amplifiers while simultaneously improving the dynamic range of the receiver. Our prototype evaluation results demonstrate that the proposed scheme can improve the dynamic range of the receiver by approximately 45 dB and 30 dB for a low data rate and a high data rate mode, respectively, compared with the conventional receiver designs. Furthermore, network emulation results demonstrate that the proposed scheme can improve the average throughput and latency by approximately 32% (24%) and 41% (43%), respectively, compared with the conventional receiver designs (and channel hopping techniques) in dynamically varying interfered channel conditions.
Year
Venue
Field
2015
MobiQuitous
Dynamic range,Wireless,Computer science,Adjacent-channel interference,Computer network,Communication channel,Interference (wave propagation),Dynamic bandwidth allocation,Throughput,Automatic gain control
DocType
Citations 
PageRank 
Conference
0
0.34
References 
Authors
13
2
Name
Order
Citations
PageRank
Il-Gu Lee1499.40
Myung-Chul Kim266557.05