Advertisement

Photonic Network Communications

, Volume 14, Issue 3, pp 337–345 | Cite as

Decentralized DBA scheme based on power detection in TDM-PON

  • Sungkuen LeeEmail author
  • Eallae Kim
  • Yongwon Lee
  • Daekwang Jung
  • Seongtaek Hwang
  • Yunje Oh
  • Jinwoo Park
Article

Abstract

In this article, we propose a new decentralized hardware-based DBA scheme in TDM-PON. Of particular significance in the proposed scheme is that the bandwidth of the uplink data transmission is dynamically allocated to each ONU without the intervention of the OLT. In this way, software-based DBA processing can be eliminated in the OLT and ONUs, resulting in the simple, fast, and cost-effective operation of the DBA in TDM-PON. The performance of the proposed scheme was evaluated by performing a statistical analysis and numerical analysis of the average packet end-to-end delay. We confirmed the superior performance of the proposed scheme by comparing the results obtained for this technique with those of other EPONs.

Keywords

Passive optical network (PON) Dynamic bandwidth allocation (DBA) Time division multiplexing (TDM) 

Preview

Unable to display preview. Download preview PDF.

Unable to display preview. Download preview PDF.

References

  1. Kramer G., Mukherjee B., Maislos A. (2003) Ethernet passive optical networks. In: Dixit S. (eds) IP over WDM: Building the Next Generation Optical Internet. J. Wiley & Sons, New Jersey, pp. 229–275Google Scholar
  2. Kramer G., Pesavento G. (2002). Ethernet passive optical network (EPON): building a next-generation optical access network. IEEE Commun. Mag. 40(2): 66–73CrossRefGoogle Scholar
  3. Su, D., Friffith, D.W.: Ethernet passive optical network architecture for broadband access. Opt. Net. Mag 107–113(2003)Google Scholar
  4. Kim K.S. (2003) On the evolution of PON-based FTTH solutions. (Invited Paper) Inf. Sci. 149(1–3): 21–30CrossRefGoogle Scholar
  5. Kramer G., Mukherjee B., Pesavento G. (2002) IPACT: a dynamic protocol for an Ethernet-PON (EPON). IEEE Commun. Mag. 40(2): 74–80CrossRefGoogle Scholar
  6. McGarry M.P., Maier M., Reisslein M. (2004) Ethernet PONs: a survey of dynamic bandwidth allocation (DBA) algorithms. IEEE Commun. Mag. 42(8): s8–s15CrossRefGoogle Scholar
  7. Sherif S.R., Hadjiantonis A., Ellinas G., Assi C., Ali M.A.(2004) A novel decentralized Ethernet-based PON access architecture for provisioning differentiated QoS. IEEE J. Lightwave Technol. 22(11): 2483–2497CrossRefGoogle Scholar
  8. Foh C.H., Andrew L., Wong E., Zukerman M.(2004) FULL-RCMA: a high utilization EPON. IEEE J. Select. Areas Commun. 22(8): 1514–1524CrossRefGoogle Scholar
  9. Wong, E., Chae, C.J.: Support of differentiated services in Ethernet passive optical networks via upstream broadcast dynamic bandwidth allocation scheme. Proceedings of COIN’2005, China, pp. 494–499 (2005)Google Scholar
  10. Kramer G., et al. (2001) Ethernet PON: design and analysis of an optical access network. Photon. Network Commun. J. 3(3): 307–319CrossRefGoogle Scholar
  11. Cramer G., et al. (2002) On supporting differentiated classes of service in EPON-based access network. J. Opt. Network 1: 280–298Google Scholar
  12. Assi C., Ye Y., Dixit S., Ali M.A. (2003) Dynamic bandwidth allocation for quality of service over Ethernet PONs. IEEE J. Select. Areas Commun. 21(9): 1467–1477CrossRefGoogle Scholar

Copyright information

© Springer Science+Business Media, LLC 2007

Authors and Affiliations

  • Sungkuen Lee
    • 1
    Email author
  • Eallae Kim
    • 1
  • Yongwon Lee
    • 1
  • Daekwang Jung
    • 2
  • Seongtaek Hwang
    • 2
  • Yunje Oh
    • 2
  • Jinwoo Park
    • 1
  1. 1.Department of Electronics and Computer EngineeringKorea UniversitySeoulS. Korea
  2. 2.Samsung Electronics Co. LTD.Gyeonggi-doS. Korea

Personalised recommendations