Group Contention-Based OFDMA MAC Protocol for Multiple Access Interference-Free in WLAN Systems

In WLAN systems, the difference in propagation delay among stations (STAs) can exceed the predefined cyclic prefix length, leading to multiple access interference (MAI). To solve this MAI problem, it is necessary to use a longer cyclic prefix length for orthogonality between different subchannels; h...

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Bibliographic Details
Published in:IEEE transactions on wireless communications 2012-02, Vol.11 (2), p.648-658
Main Authors: JUNWOO JUNG, LIM, Jaesung
Format: Article
Language:English
Subjects:
Access methods and protocols, osi model
Applied sciences
Business and industry local networks
cyclic prefix
Delay
Exact sciences and technology
Information, signal and communications theory
Local area networks
MAI
Multiaccess communication
Multiple access
Multiplexing
Networks and services in france and abroad
OFDMA
Packet transmission
Protocols
Signal and communications theory
Simulation
Stations
Synchronization
Systems, networks and services of telecommunications
Telecommunications
Telecommunications and information theory
Teleprocessing networks. Isdn
Throughput
Transmission
Transmission and modulation (techniques and equipments)
Wireless communication
Wireless LAN
WLAN
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Description
Summary:In WLAN systems, the difference in propagation delay among stations (STAs) can exceed the predefined cyclic prefix length, leading to multiple access interference (MAI). To solve this MAI problem, it is necessary to use a longer cyclic prefix length for orthogonality between different subchannels; however, this sacrifices system efficiency due to the cyclic prefix overhead. In this paper, we propose a group contention-based OFDMA to solve the MAI problem with an adequate cyclic prefix length and support a larger number of STAs. The STAs within the cyclic prefix duration that are synchronized to an access point (AP), are included in the same contending group and compete with other STAs of the group in transmitting packets. The proposed scheme allows for the adoption of an adequate cyclic prefix length without MAI, and is able to reduce the cyclic prefix overhead. In addition, since no packet errors are induced by MAI in any of the STAs, the STAs can transmit simultaneously without redundant short interframe spaces (SIFSs) and other control packets. Through analysis and simulation, we show that for a large number of STAs, the proposed scheme achieves higher throughput than 802.11 protocols and a conventional CSMA combined with OFDMA.
ISSN:1536-1276
1558-2248
DOI:10.1109/TWC.2011.122211.102316