DocumentCode :
3520224
Title :
An analytical model for service differentiation in IEEE 802.11
Author :
Ge, Ye ; Hou, Jennifer
Author_Institution :
Dept. of Electr. Eng., Ohio State Univ., Columbus, OH, USA
Volume :
2
fYear :
2003
fDate :
11-15 May 2003
Firstpage :
1157
Abstract :
With the rapid deployment of wireless LAN technology, provisioning of QoS differentiation to different traffic classes in wireless LANs (WLANs) has become a prominent research issue. In this paper, we analyze throughput performance of a p-persistent version of 802.11 MAC protocol with multiple QoS traffic classes. (It has been validated in [F. Cali, et al., March 1998], [F. Cali, et al., December 2000], [F. Cali, et al., September 2000] that the transmission probability used in the p-persistent version of 802.11 can be "converted" to the retransmission backoff timer value in 802.11.) In particular, we derive the closed-form solution of throughput with respect to different traffic classes. With the derived analytical results, each station can fine tune its transmission probabilities for different traffic classes to achieve the targeted throughput ratio, while at the same time maximizing the total system capacity. The correctness of the analytical results is corroborated by simulation.
Keywords :
access protocols; probability; quality of service; telecommunication traffic; wireless LAN; IEEE 802.11; MAC protocol; QoS; WLAN; closed-form solution; multiple QoS traffic classes; p-persistent version; service differentiation; throughput ratio; transmission probability; wireless LAN technology; Access protocols; Analytical models; Media Access Protocol; Proposals; Quality of service; Telecommunication traffic; Throughput; Traffic control; Wireless LAN; Wireless application protocol;
fLanguage :
English
Publisher :
ieee
Conference_Titel :
Communications, 2003. ICC '03. IEEE International Conference on
Conference_Location :
Anchorage, AK
Print_ISBN :
0-7803-7802-4
Type :
conf
DOI :
10.1109/ICC.2003.1204548
Filename :
1204548
Link To Document :
بازگشت