Submission Kai Kang, SHRCWC May 2013 A Mechanism to Provide QoS in IEEE 802.11e MAC Date: 2013-05-14 Authors: Slide 1.

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Presentation transcript:

Submission Kai Kang, SHRCWC May 2013 A Mechanism to Provide QoS in IEEE e MAC Date: Authors: Slide 1

Submission Kai Kang, SHRCWC May 2013 IEEE e MAC for QoS Slide 2 IEEE employ CSMA/CA at MAC layer to provide best- effort service. To support MAC-level QoS, IEEE standardization committee published IEEE e, a supplement to the original IEEE MAC. The MAC layer defined in IEEE e employs a contention-based part called Enhanced Distributed Channel Access (EDCA) and a contention-free centrally controlled part called Hybrid coordination function Controlled Channel Access (HCCA).

Submission Kai Kang, SHRCWC May 2013 EDCA in IEEE e EDCA provides differentiated, distributed access to the wireless medium (WM). It defines four access categories (ACs) to provide QoS for the delivery of traffic at the stations. Slide 3

Submission Kai Kang, SHRCWC May 2013 EDCA in IEEE e ECDA defines two basic priority mechanisms for accessing the channel:  different per-class setting of the contention window (CW) backoff parameters (CW min and CW max )  different per-class setting of the idle time after which a transmission may occur (arbitration inter-frame space, AIFS). Slide 4

Submission Kai Kang, SHRCWC May 2013 EDCA in IEEE e CW differentiation: The CW differentiation is to lower the contention window size of high priority traffic thus to increase high priority traffic’s channel access probability. So CW differentiation causes more contentions and thus decreases the throughput. With the increase in the number of competing stations, high priority throughput and total throughput is reduced significantly. The throughput differentiation provided by this mechanism is paid for the decrease of throughput. AIFS differentiation AIFS differentiation introduces protected slots after every busy channel period in which a lower number of stations compete. The percentage of protected slots significantly increases as long as number of competing stations increases thus low priority stations are penalized while high priority stations don’t experience much throughput reduction. Slide 5

Submission Kai Kang, SHRCWC May 2013 A new mechanism to Provide QoS This new mechanism is to assemble several slots together to form a super slot, and assign different slots in the super slot for different priority traffic to send frames (Super Slot Mechanism, SSM). If many stations with different class of traffic all want to send frame in a super slot, only the highest priority traffic can get the transmission opportunity (TXOP) Slide 6

Submission Kai Kang, SHRCWC May 2013 Simulation Parameters IEEE b Direct Sequence, 11Mbps, none RTS/CTS, CW max =(CW min +1)*2 5 -1, payload size is uniform 1023 bytes. A super slot contains two slots, CW min =31. The number of high priority stations is the same as that of low priority stations. Every station only has one priority traffic. Every station is under the saturation conditions. Slide 7

Submission Kai Kang, SHRCWC May 2013 SSM’s Performance Slide 8

Submission Kai Kang, SHRCWC May 2013 SSM VS. EDCA Slide 9 Type of PriorityCWminAIFSNSSM New Scheme High Priority242Y Low Priority324Y EDCA High Priority162N Low Priority324N

Submission Kai Kang, SHRCWC May 2013 Summary We propose a new mechanism to provide QoS service in IEEE MAC. The new mechanism guarantees the throughput, MAC delay and the frame dropping probability of the high priority traffic. This mechanism is good and robust. Applying this new mechanism can improve the performance of IEEE e EDCA greatly. Slide 10

Submission Kai Kang, SHRCWC May 2013 Reference [ 1 ] IEEE P : Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) Specifications. [2] Kai Kang, Xiaokang Lin, Aili Wang. A new mechanism to provide QoS in IEEE MAC. 64 th IEEE Vehicular Technology Conference, VTC-2006 Fall, Montreal, Canada, September 2006: (EI Accession number: ) [3] Kai Kang, Xiaokang Lin, Haibo Hu. A virtual collision mechanism to decrease collisions in IEEE MAC layer. 65 th IEEE Vehicular Technology Conference, VTC Spring, Dublin, Ireland, April 2007: (EI Accession number: ) [3] Kai Kang, Hongqi Jiang, Xiaokang Lin. Research on multi-slot virtual collision mechanism for IEEE DCF. 68 th IEEE Vehicular Technology Conference, VTC 2008-Fall, Calgary, Canada, September (EI Accession number: ) [5] Giuseppe Bianchi, Vergata Ilenia Tinnirello. Understanding e Contention-Based Prioritization Mechanisms and Their Coexistence with Legacy Stations. IEEE Network, 2005, July/August: Slide 11

Submission Kai Kang, SHRCWC May 2013 Thank You Slide 12