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| Title: | 適用於IEEE 802.11e網路下提供服務品質效能的改進
Improving QoS Performance of EDCA in IEEE 802.11e Wireless Networks |
| Authors: | 洪立韋
Hung, Li-Wei |
| Contributors: | 蔡子傑
Tsai, Tzu-Chieh
洪立韋
Hung, Li-Wei |
| Keywords: | 服務品質
動態調整
EDCA
QoS
Dynamic
Contention window
802.11e |
| Date: | 2005 |
| Issue Date: | 2009-09-17 14:07:57 (UTC+8) |
| Abstract: | 隨著行動通訊日漸普及,愈來愈多使用者希望能夠在任何時間、任何地點,不受限制地使用他們所需的服務。但是由於IEEE 802.11通訊協定的限制,導致使用者無法獲得適當的服務品質保障,特別是使用者在享受即時性的服務,例如:網路電話、視訊會議、線上即時影音等。雖然在2001年IEEE提出802.11e草案,提供具有服務品質的無線通訊協定,但是在服務品質的效能方面表現並非完美,特別是在隨時變化的真實網路中。我們提出一個隨時根據網路狀況動態調整系統參數且容易實作並相容於IEEE 802.11e網路下的新機制。根據實驗模擬結果中,我們可以看到我們所提出的方法提供比EDCA更好的服務品質,就語音方面的延遲而言,我們減少約80%,就視訊方面的延遲,我們改善約25%,而輸出量方面約增加45%的效能,並且提高系統約6% - 40%最大的容納數。而我們也導入了允入控管,根據事先模擬的結果及設定的系統參數門檻,達到允入控管的目地,確保系統所提供的服務品質能夠滿足使用者的需求。
Wireless LANs (WLANs) based on the IEEE 802.11 family have recently become popular for allowing high data rates at relatively low cost. However, due to the limitation of 802.11 DCF, they are not suitable for real-time service and do not support service differentiation. To expand providing applications with quality of service (QoS) requirements in WLANs, the IEEE 802.11E Task Group was formed to enhance the current 802.11 medium access control (MAC) protocol. In real networks, the network condition is dynamic. The 802.11e cannot reach high performance of QoS. Besides, design of efficient MAC protocols with both high-throughput and low-jitter performance is the major focus in distributed contention-based MAC protocol research. In view of this, we propose a new and applicable approach, called Dynamic-EDCA (D-EDCA), adjusts the parameters of system based on the network condition. The result of simulation shows that in comparison with EDCA, our proposed algorithm improves total throughput more than 45%, and the maximum of connection more than 40%. It also reduces voice delay about 80%, and video delay about 25%. Thus, the proposed D-EDCA utilizes bandwidth more efficiently and improves performance for service differentiation. |
| Reference: | 【1】 IEEE 802.11 WG, Reference number ISO/IEC 8802-11:1999(E) IEEE Std 802.11, 1999 edition. International Standard [for] Information Technology - Telecommunications and information exchange between systems-Local and metropolitan area networks-Specific Requirements – Part 11: Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) specifications, 1999.
【2】 IEEE 802.11 WG, Draft Supplement to STANDARD FOR Telecommunications and Information Exchange Between Systems-LAN/MAN Specific Requirements - Part 11: Wireless Medium Access Control (MAC) and Physical Layer (PHY) specifications: Medium Access Control (MAC) Enhancements for Quality of Service (QoS), IEEE 802.11e/D6.0, November 2003.
【3】 Qiang Ni, Lamia Romdhani, and Thierry Truletti, “A Survey of QoS Enhancements for IEEE 802.11 Wireless LAN”, Journal of Wireless communications and Mobile Computing, Wiley, 2004, Vol. 4, pp.547-566.
【4】 Aad I, Castelluccia C.”Differentiation mechanisms for IEEE 802.11,” Proc. IEEE Infocom 2001, Anchorage, Alaska, USA, April 2001, 1:209-218.
【5】 Deng J and Chang RS. “A priority scheme for IEEE 802.11 DCF access method,” IEICE Transactions in Communications 1999, 82-B(1): 96-102.
【6】 Jamal N. Al-Karaki, J. Morris Chang, “A simple distributed access control scheme for supporting QoS in IEEE 802.11 wireless LANs”, WCNC 2004 - IEEE Wireless Communications and Networking Conference, vol. 5, no. 1, March 2004 pp. 213-218
【7】 L. Romdhani, Q. Ni, and T. Turleni, ”Adaptive EDCF:enhanced service differentiation for IEEE 802.11 wireless ad-hoc networks,” IEEE WCNC, vol. 2, pp.1373-1378, March 2003
【8】 http://www.isi.edu/nsnam/ns/
【9】 http://www.tkn.tu-berlin.de/research/802.11e_ns2/
【10】 G.W. Wong and R.W. Donaldson, “Improving the QoS oerformance of EDCF in IEEE 802.11e wireless LANs,” IEEE PACRIM, vol. I, pp.392-396, Aug 2003
【11】 http://www-sop.inria.fr/planete/qni/Research/AEDCF/
【12】 Antonio Grilo and Mario Numes, “Performance Evaluation of IEEE 802.11e.” Proc. IEEE PIMRC 2002, Lisbon, Portugal, pp.511-517, Sept, 2002.
【13】 G. Bianchi, “Performance Analysis of the IEEE 802.11 Distributed coordination Function,” IEEE Journal of Selected Areas in telecommunications, Wireless series, Vol. 18, no. 3, March 2000, pp. 535-547.
【14】 Hao Zhu, Guohong Cao, Aylin Yener, Allen D. Mathias, “EDCF-DM: A novel enhanced distributed coordination function for wireless ad hoc networks”, ICC 2004 - IEEE International Conference on Communications, vol. 27, no. 1, June 2004 pp. 3886-3890
【15】 Jeremy Gosteau, Mohamed Kamoun, Sebastien Simoens, Pietro Pellati, “Analytical developments on QoS enhancements provided by IEEE 802.11 EDCA,” ICC 2004 - IEEE International Conference on Communications, vol. 27, no. 1, June 2004 pp. 4197-4201
【16】 Stefan Mangold, Sunghyun Choi, Guido R. Hiertz, Ole Klein, Bernhard Walke, “Analysis of IEEE 802.11E for QoS support in wireless LANs,” IEEE Wireless Communications, vol. 10, no. 6, Dec 2003 pp. 40-50
【17】 Michael Barry, Andrew T. Campbell, Andras Veres, “Distributed control algorithms for service differentiation in wireless packet networks,” IEEE INFOCOM 2001 - The Conference on Computer Communications, no. 1, April 2001 pp. 582-590
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【21】 Dennis Pong, Tim Moors, “Call admission control for IEEE 802.11 contention access mechanism”, GLOBECOM 2003 - IEEE Global Telecommunications Conference, vol. 22, no. 1, Dec 2003 pp. 174-178
【22】 Zhifeng Tao, Shivendra Panwar, “An analytical model for the IEEE 802.11e enhanced distributed coordination function”, ICC 2004 - IEEE International Conference on Communications, vol. 27, no. 1, June 2004 pp. 4111-41
【23】 Albert Banchs, Luca Vollero, “A Delay Model for IEEE 802.11e EDCA”, IEEE Communications Letters, vol. 9, no. 6, June 2005
【24】 Yang Xiao, Haizhon Li, “Evaluation of Distributed Admission Control for the IEEE 802.11e EDCA”, IEEE Communications Magazine, vol. 42, no. 9, September 2004
【25】 Dan Chalmers, Morris Sloman, “A survey of quality of service in mobile computing environments”, IEEE Communications Surveys & Tutorials, vol. 2, no. 2, Second Quarter 1999 pp. 2-10
【26】 Antonio Tadeu A. Gomes, Sergio Colcher, Luiz Fernando G. Soares, “Modeling QoS provision on adaptable communication environments”, ICC 2001 - IEEE International Conference on Communications, no. 1, June 2001 pp. 1221-1226
【27】 Sotiris I. Maniatis, Eugenia G. Nikolouzou, Iakovos S. Venieris, “End-to-end QoS specification issues in the converged all-IP wired and wireless environment”, IEEE Communications Magazine, vol. 42, no. 6, Jun 2004 pp. 80-86
【28】 Algimantas Kajackas, Vaidas Batkauskas, Arturas Medeisis, “Individual QoS rating for voice services in cellular networks”, IEEE Communications Magazine, vol. 42, no. 6, Jun 2004 pp. 88-93
【29】 Nagao Ogino, Masakatsu Kosuga, Tatsuya Yamazaki, Jun Matsuda, “A model of adaptive QoS management platform based on cooperation of layered multi-agents”, GLOBECOM 1999 - IEEE Global Telecommunications Conference, no. 1, December 1999 pp. 406-413
【30】 Denis Gracanin, Yunxian Zhou, Luiz A. DaSilva, “Quality of service for networked virtual environments”, IEEE Communications Magazine, vol. 42, no. 4, Apr 2004 pp. 42-48 |
| Description: | 碩士
國立政治大學
資訊科學學系
92753018
94 |
| Source URI: | http://thesis.lib.nccu.edu.tw/record/#G0927530181 |
| Data Type: | thesis |
| Appears in Collections: | [資訊科學系] 學位論文
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