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Measurements of QoS/QoE parameters for media streaming in a PMIPv6 testbed with 802.11 b/g/n WLANs

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Języki publikacji
EN
Abstrakty
EN
The growing number of mobile devices and the increasing popularity of multimedia services result in a new challenge of providing mobility in access networks. The paper describes experimental research on media (audio and video) streaming in a mobile IEEE 802.11 b/g/n environment realizing network-based mobility. It is an approach to mobility that requires little or no modification of the mobile terminal. Assessment of relevant parameters has been conducted in an IPv6 testbed. During the tests, both Quality of Service (QoS) and Quality of Experience (QoE) parameters have been considered. Against the background of standard L3 and L2 handovers, an emerging mobility solution named Proxy Mobile IPv6 (PMIPv6) has been examined. Its advantages (L3 connectivity maintenance) and disadvantages (packet loss during handover) are emphasized based on the obtained results. Moreover, a new solution for handover optimization has been proposed. A handoff influence upon audio/video generation and transfer imperfections has been studied and found to be an interesting direction of future work.
Słowa kluczowe
Rocznik
Strony
283--294
Opis fizyczny
Bibliogr. 25 poz., rys., tab., wykr.
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autor
autor
autor
autor
  • Gdansk University of Technology, Faculty of Electronics, Telecommunications and Informatics,Department of Computer Communications 11/12 Gabriela Narutowicza Street, 80-233 Gdańsk, Poland, michal.hoeft@eti.pg.gda.pl
Bibliografia
  • [1] Gierłowski, K., Kostuch, A., Wozniak, J., Nowicki, K., (2011). Testbed analysis of video and VoIP transmission performance in IEEE 802.11 b/g/n networks. Telecommunication Systems, 48, 247-260.
  • [2] Vatn, J.O. (2003). An experimental study of IEEE 802.11b handover performance and its effect on voice traffic. Royal Institute of Technology, Stockholm, Sweden.
  • [3] Nguyet, T.A., Vu Tuan, V.P., Koudelka O. (2009). QoS Assessment on Mobile IPv6. RIVF’09. Da Nang, Vietnam.
  • [4] Liu, M., Guo, X., Zhou, A., Wang, S., Li, Z., Dutkiewicz, E. (2011). Low Latency IP Mobility Management: Protocol and Analysis. EURASIP Journal on Wireless Communications and Networking. 2011, 25.
  • [5] Kong, K.S., Lee, W., Han, Y.H., Shin, M.K., You, H. (2008). Mobility Management For All-IP Mobile Networks: Mobile IPv6 vs. Proxy Mobile IPv6. IEEE Wireless Communications Magazine, 15(2), 36-45.
  • [6] Melia, T., Giust, F., Manfrin, R., De la Oliva, A., Bernardos, C.J., Wetterwald, M. (2011). IEEE 802.21 and Proxy Mobile IPv6: A Network Controlled Mobility Solution. In Proc. Future Network and MobileSummit 2011, Warsaw, Poland.
  • [7] Garcia, E., Ferrer, J.L., Lopez-Aguilera, E., Vidal, R., Paradells, J. (2009). Client-driven load balancing through association control in IEEE 802.11 WLANs. Eur. Trans. Telecomms., 20(5), 494-507.
  • [8] Machań, P., Wozniak, J. (2011). Proactive handover for IEEE 802.11r networks. In Wireless and Mobile Networking Conference (WMNC), Toulouse, France.
  • [9] Kim, I., Jung, Y.C., Kim, Y.T. (2008). Low Latency Proactive Handover Scheme for Proxy MIPv6 with MIH. In Challenges for Next Generation Network Operations and Service Management, LNCS, 5297, 344-353.
  • [10] Ramani, I., Savage, S. (2005). SyncScan: Practical Fast Handoff for 802.11 Infrastructure Networks. In Proc. of the 24th conference INFOCOM'05, 1, 675-684.
  • [11] IEEE 802.11r: Amendment 2: Fast Basic Service Set (BSS) Transition. IEEE Std 802.11r-2008, July 2008.
  • [12] Perkins, C., Tellabs, E., Johnson, D., Arkko, J. (2011). Mobility Support in IPv6, IETF, RFC 6275.
  • [13] Soliman, H., Castelluccia, C., ElMalki, K., Bellier, L. (2008). Hierarchical Mobile IPv6 (HMIPv6) Mobility Management, IETF, RFC 5380.
  • [14] Gundavelli, S., Leung, K., Devarapalli, V., Chowdhury, K., Patil, B. (2008). Proxy Mobile IPv6, IETF, RFC5213.
  • [15] Koodli, R. (2008). Mobile IPv6 Fast Handovers, IETF, RFC 5268.
  • [16] Malki, El.K. (ed.). (2007). Low Latency Handoffs in Mobile IPv4, IETF, RFC 4881.
  • [17] Greengrass, J., Evans, J., Begen, A.C. (2009). Not All Packets Are Equal. Part I: Streaming Video Coding and SLA Requirements. IEEE Internet Computing Magazine, 13(1), 70-75.
  • [18] ITU-T Recommendation G.1010: End-user multimedia QoS categories. 2001.
  • [19] Greengrass, J., Evans, J., Begen, A.C. (2009). Not All Packets Are Equal. Part II: The Impact of Network Packet Loss on Video Quality IEEE Internet Computing Magazine, 13(2), 74-82.
  • [20] Recommendation ITU-T J.247: Objective perceptual multimedia video quality measurement in the presence of a full reference. 2008.
  • [21] ITU-T Recommendation J.144: Objective perceptual video quality measurement techniques for digital cable television in the presence of a full reference. 2004.
  • [22] Wang, Z., Bovik, A. C., Sheikh, H., R., Simoncelli, E., P. (2004). Image quality assessment: From error visibility to structural similarity. IEEE Trans. on Image Processing, 13(4), 600-612.
  • [23] Chan, A.J., Zeng, K., Mohapatra, P., Lee, S.-J., Banerjee, S. (2010). Metrics for Evaluating Video Streaming Quality in Lossy IEEE 802.11 Wireless Networks. Proc. of the 29th conference INFOCOM’10, USA, 1, 1613-1621.
  • [24] ITU-T Recommendation P.910: Subjective video quality assessment for multimedia applications. 2008.
  • [25] VLC media player, VideoLAN Organization (2012 February).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BSW1-0097-0009
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