Distributed Fair Auto Rate Medium Access Control for IEEE 802.11 Based WLANs
スポンサーリンク
概要
- 論文の詳細を見る
Much research has shown that a carefully designed auto rate medium access control can utilize the underlying physical multi-rate capability to exploit the time-variation of the channel. In this paper, we develop a simple analytical model to elucidate the rule that maximizes the throughput of RTS/CTS based multi-rate wireless local area networks. Based on the discovered rule, we propose two distributed fair auto rate medium access control schemes called FARM and FARM+ from the view-point of throughput fairness and time-share fairness, respectively. With the proposed schemes, after receiving a RTS frame, the receiver selectively returns the CTS frame to inform the transmitter the maximum feasible rate probed by the signal-to-noise ratio of the received RTS frame. The key feature of the proposed schemes is that they are capable of maintaining throughput/time-share fairness in asymmetric situation where the distribution of SNR varies with stations. Extensive simulation results show that the proposed schemes outperform the existing throughput/time-share fair auto rate schemes in time-varying channel conditions.
- (社)電子情報通信学会の論文
- 2008-03-01
著者
-
Niu Zhisheng
State Key Lab On Microwave And Digital Communications Department Of Electronic Engineering Tsinghua
-
Niu Zhisheng
State Key Laboratory On Microwave And Digital Communication Department Of Electronic Engineering Tsi
-
ZHU Yanfeng
State Key Laboratory on Microwave and Digital Communication Department of Electronic Engineering, Ts
-
Zhu Yanfeng
State Key Laboratory On Microwave And Digital Communication Department Of Electronic Engineering Tsi
関連論文
- A Game-Theoretical Power and Rate Control for Wireless Ad Hoc Networks with Step-up Price(Advances in Ad Hoc Mobile Communications and Networking)
- Distributed Fair Auto Rate Medium Access Control for IEEE 802.11 Based WLANs
- Optimizing Radio Resource Allocation in Multimedia DS-CDMA Systems Based on Utility Functions(Wireless Communication Technology)
- Pareto Improvement for Radio Resource Control under Incomplete Channel Information : A Game-Theoretical Approach(Mobile Radio)(Mobile Multimedia Communications)
- Adaptive Orthonormal Random Beamforming and Multi-Beam Selection for Cellular Systems(Wireless Communication Technologies)
- Joint Transmit Rate, Power and Antenna Allocation for MIMO Systems with Multimedia Traffic(Wireless Communication Technologies)
- An Efficient Rate and Power Allocation Algorithm for Multiuser OFDM Systems(Wireless Communication Technologies)