A capacity analysis framework for the IEEE 802.11e contention-based infrastructure basic service set

We propose a multimedia capacity analysis framework for the Enhanced Distributed Channel Access (EDCA) function of the IEEE 802.11e standard. Our analysis shows that the multimedia capacity of the EDCA function for each Access Category (AC) can accurately be estimated by appropriately weighing the service time predictions of a saturation model over different number of active stations. We propose a simple and generic cycle time model to derive the service time in saturation which we employ in the calculation of an accurate station- and AC-specific queue utilization ratio. Based on the estimated queue utilization ratio, we design a simple model-based admission control scheme. We show that the proposed call admission control algorithm maintains satisfactory user-perceived quality for coexisting voice and video connections in an infrastructure Basic Service Set (BSS) and does not present over-or under-admission problems of previously proposed models in the literature.

[1]  Vincent W. S. Wong,et al.  Saturation throughput of IEEE 802.11e EDCA based on mean value analysis , 2006, IEEE Wireless Communications and Networking Conference, 2006. WCNC 2006..

[2]  Tim Moors,et al.  Call admission control for IEEE 802.11 contention access mechanism , 2003, GLOBECOM '03. IEEE Global Telecommunications Conference (IEEE Cat. No.03CH37489).

[3]  Brahim Bensaou,et al.  Performance analysis of IEEE 802.11e contention-based channel access , 2004, IEEE Journal on Selected Areas in Communications.

[4]  Vinod Sharma,et al.  An Analytical Model for the Capacity Estimation of Combined VoIP and TCP File Transfers over EDCA in an IEEE 802.11e WLAN , 2006, 200614th IEEE International Workshop on Quality of Service.

[5]  Xuemin Shen,et al.  Voice capacity analysis of WLAN with unbalanced traffic , 2006, IEEE Trans. Veh. Technol..

[6]  Ilenia Tinnirello,et al.  Analysis of the IEEE 802.11e EDCA Under Statistical Traffic , 2006, 2006 IEEE International Conference on Communications.

[7]  Luca Vollero,et al.  Throughput analysis and optimal configuration of 802.11e EDCA , 2006, Comput. Networks.

[8]  Hongqiang Zhai,et al.  Supporting QoS in IEEE 802.11e wireless LANs , 2006, IEEE Transactions on Wireless Communications.

[9]  Yang Xiao QoS guarantee and provisioning at the contention-based wireless MAC layer in the IEEE 802.11e wireless LANs , 2006, IEEE Wirel. Commun..

[10]  Martin Reisslein,et al.  Network performance evaluation using frame size and quality traces of single-layer and two-layer video: A tutorial , 2004, IEEE Communications Surveys & Tutorials.

[11]  Hongqiang Zhai,et al.  Performance analysis of IEEE 802.11 MAC protocols in wireless LANs , 2004, Wirel. Commun. Mob. Comput..

[12]  Fouad A. Tobagi,et al.  Throughput analysis of IEEE 802.11 wireless LANs using an average cycle time approach , 2005, GLOBECOM '05. IEEE Global Telecommunications Conference, 2005..

[13]  ContiMarco,et al.  Dynamic tuning of the IEEE 802.11 protocol to achieve a theoretical throughput limit , 2000 .

[14]  Olav N. Østerbø,et al.  Analysis of the Total Delay of IEEE 802.11e EDCA and 802.11 DCF , 2006, 2006 IEEE International Conference on Communications.

[15]  Sachin Garg,et al.  Can I add a VoIP call? , 2003, IEEE International Conference on Communications, 2003. ICC '03..

[16]  Qian Zhang,et al.  Performance study of MAC for service differentiation in IEEE 802.11 , 2002, Global Telecommunications Conference, 2002. GLOBECOM '02. IEEE.

[17]  Fouad A. Tobagi,et al.  System centric and user centric queueing models for IEEE 802.11 based wireless LANs , 2005, 2nd International Conference on Broadband Networks, 2005..

[18]  David Malone,et al.  Modeling the 802.11 distributed coordination function in non-saturated conditions , 2005, IEEE Communications Letters.

[19]  Yang Xiao,et al.  Performance analysis of priority schemes for IEEE 802.11 and IEEE 802.11e wireless LANs , 2005, IEEE Transactions on Wireless Communications.

[20]  Michael Devetsikiotis,et al.  Metamodeling of Wi-Fi Performance , 2006, 2006 IEEE International Conference on Communications.

[21]  Hai Le Vu,et al.  VoIP capacity analysis in IEEE 802.11 WLAN , 2009, 2009 IEEE 34th Conference on Local Computer Networks.

[22]  I. Chlamtac,et al.  Performance analysis for IEEE 802.11e EDCF service differentiation , 2005, IEEE Transactions on Wireless Communications.

[23]  A. Girotra,et al.  Performance Analysis of the IEEE 802 . 11 Distributed Coordination Function , 2005 .

[24]  Yang Xiao,et al.  Differentiation, QoS guarantee, and optimization for real-time traffic over one-hop ad hoc networks , 2005, IEEE Transactions on Parallel and Distributed Systems.

[25]  Hongqiang Zhai,et al.  How well can the IEEE 802.11 wireless LAN support quality of service? , 2005, IEEE Transactions on Wireless Communications.

[26]  Biplab Sikdar,et al.  A queueing model for finite load IEEE 802.11 random access MAC , 2004, 2004 IEEE International Conference on Communications (IEEE Cat. No.04CH37577).

[27]  Weihua Zhuang,et al.  WLC15-1: Improvement of WLAN QoS Capability via Statistical Multiplexing , 2006, IEEE Globecom 2006.

[28]  Yang Xiao,et al.  Local data control and admission control for QoS support in wireless ad hoc networks , 2004, IEEE Trans. Veh. Technol..

[29]  Yang Xiao,et al.  Voice and video transmissions with global data parameter control for the IEEE 802.11e enhance distributed channel access , 2004, IEEE Transactions on Parallel and Distributed Systems.

[30]  Marco Conti,et al.  Dynamic tuning of the IEEE 802.11 protocol to achieve a theoretical throughput limit , 2000, TNET.

[31]  Shivendra S. Panwar,et al.  Throughput and delay analysis for the IEEE 802.11e enhanced distributed channel access , 2006, IEEE Transactions on Communications.

[32]  Telemaco Melia,et al.  Performance anomalies of nonoptimally configured wireless LANs , 2006, IEEE Wireless Communications and Networking Conference, 2006. WCNC 2006..

[33]  Ender Ayanoglu,et al.  Multimedia Capacity Analysis of the IEEE 802.11e Contention-Based Infrastructure Basic Service Set , 2008, IEEE GLOBECOM 2008 - 2008 IEEE Global Telecommunications Conference.

[34]  Ender Ayanoglu,et al.  Performance Analysis of the IEEE 802.11e Enhanced Distributed Coordination Function Using Cycle Time Approach , 2007, IEEE GLOBECOM 2007 - IEEE Global Telecommunications Conference.

[35]  Fouad A. Tobagi,et al.  Capacity of an IEEE 802.11b wireless LAN supporting VoIP , 2004, 2004 IEEE International Conference on Communications (IEEE Cat. No.04CH37577).

[36]  Hongqiang Zhai,et al.  Performance analysis of IEEE 802.11 MAC protocols in wireless LANs: Research Articles , 2004 .

[37]  Ender Ayanoglu,et al.  Modeling the 802.11e Enhanced Distributed Channel Access Function , 2007, IEEE GLOBECOM 2007 - IEEE Global Telecommunications Conference.

[38]  Moshe Zukerman,et al.  A new technique for performance evaluation of random access protocols , 2002, 2002 IEEE International Conference on Communications. Conference Proceedings. ICC 2002 (Cat. No.02CH37333).

[39]  Vinod Sharma,et al.  An Analytical Model for Capacity Evaluation of VoIP on HCCA and TCP File Transfers over EDCA in an IEEE 802.11e WLAN , 2006, ICDCN.

[40]  Kee Chaing Chua,et al.  A Capacity Analysis for the IEEE 802.11 MAC Protocol , 2001, Wirel. Networks.

[41]  A. M. Abdullah,et al.  Wireless lan medium access control (mac) and physical layer (phy) specifications , 1997 .

[42]  Zongkai Yang,et al.  Management of services differentiation and guarantee in IEEE 802.11e wireless LANs , 2005, 2005 IEEE 61st Vehicular Technology Conference.

[43]  T. S. Randhawa,et al.  Saturation throughput analysis of IEEE 802.11e enhanced distributed coordination function , 2004, IEEE Journal on Selected Areas in Communications.

[44]  Sachin Garg,et al.  An experimental study of throughput for UDP and VoIP traffic in IEEE 802.11b networks , 2003, 2003 IEEE Wireless Communications and Networking, 2003. WCNC 2003..

[45]  Chang Wen Chen,et al.  WLC19-6: Capacity Analysis of Supporting VoIP in IEEE 802.11e EDCA WLANs , 2006, IEEE Globecom 2006.

[46]  Sherali Zeadally,et al.  HARMONICA: enhanced QoS support with admission control for IEEE 802.11 contention-based access , 2004, Proceedings. RTAS 2004. 10th IEEE Real-Time and Embedded Technology and Applications Symposium, 2004..

[47]  Michael Devetsikiotis,et al.  A unified model for the performance analysis of IEEE 802.11e EDCA , 2005, IEEE Transactions on Communications.