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Method and Algorithm for Topology Automatic Discovery in Complicated Passive Optical Network Architecture

  • Panke Qin ORCID logo , Tao Liu , Qing Ye EMAIL logo , Zongqu Zhao und Yongli Tang
Veröffentlicht/Copyright: 17. Januar 2019
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Journal of Optical Communications
Aus der Zeitschrift Journal of Optical Communications Band 43 Heft 2

Abstract

Passive Optical Network (PON) plays an important role in optical access network due to its characteristics of resources saving and network protocol transparency. In the process of running and operating a PON system, a reliable network management system (NMS) is necessary. In order to acquisition the management object, NMS should perform topology automatic discovery process with the help of embedded software. Aiming at various types of the convergence network’s topology and the complicated architecture, this article proposes a topology automatic discovery algorithm to promote the network management. We have designed and verified the automatic discovery method on our simulation platform with SNMP-Agent-enabled OLTs.

Keywords: Passive optical network (PON); network management system (NMS); topology automatic discovery

Acknowledgements

This study is supported by the Projects of Henan Provincial Department of Education(18A413001,19A520025), the Doctoral Scientific Fund of Henan polytechnic University(no. B2016-36), the National Natural Science Foundation of China(61802117), the “13th Five-Year” National Crypto Development Foundation(MMJJ20170122).

References

1. Wang L, Chen X, Ma D. Implemention of a survivable EPON system supporting direct communication between ONUs. Wireless and optical communications conference, 2010:1–4.10.1109/WOCC.2010.5510673Suche in Google Scholar

2. Kim GJ, Kim II T, Yu JH. An infrastructure of distributed network management system for 1Gb/s E-PON using mobile agents. Adv Commun Technol. 2004;2:791–6.Suche in Google Scholar

3. Li T, He C, Deng H, Cao L. Equipment intelligent operation and maintenance innovation based on network protocol. Inf Technol Inform. 2018;07:156–8.Suche in Google Scholar

4. Huang X, Ma Y, Zhang J. Study of the active network management system model based on agent. Wire Commun Netw Mobile Comput. 2008;3:1–4.10.1109/WiCom.2008.2597Suche in Google Scholar

5. Casellas R, Martinez R, Munoz R, Liu L, Tsuritani T, Morita I. An integrated stateful PCE/OpenFlow controller for the control and management of flexi-grid optical networks with an integrated stateful path computation element and openflow controller. J Opt Commun Netw. 2013;5:A57–A65.10.1364/JOCN.5.000A57Suche in Google Scholar

6. Li R, Cui D. Use integrated network management system to ensure the safe and stable operation of data services. Radio Telev Inform. 2017;10:146–50.Suche in Google Scholar

7. Mandal U, Habib MF, Zhang S, Mukherjee B. Greening the cloud using renewable-energy-aware service migration. IEEE Netw. 2013;27:36–43.10.1109/MNET.2013.6678925Suche in Google Scholar

8. Sharkh MA, Jammal M, Shami A, Ouda A. Resource allocation in a network-based cloud computing environment: design challenges. IEEE Commun Mag 2013;51:46–52.10.1109/MCOM.2013.6658651Suche in Google Scholar

9. Manvi SS, Krishna Shyam G. Resource management for infrastructure as a service (IaaS) in cloud computing: a survey. J Netw Comput Appl. 2014;41:424–40.10.1016/j.jnca.2013.10.004Suche in Google Scholar

10. Develder C, De Leenheer M, Dhoedt B, Demeester P. Optical networks for grid and cloud computing applications. Proc IEEE. 2012;100:1149–67.10.1109/JPROC.2011.2179629Suche in Google Scholar

11. Kumar P, Sehgal V, Chauhan DS, Nitin N. Clouds: concept to optimize the quality of service (QOS) for clusters. 2011 IEEE world congress on information and communication technologies (WICT), 2011:816–21.10.1109/WICT.2011.6141352Suche in Google Scholar

12. Li Y. Research on automatic discovery algorithm of link layer network topology. J Software Guide. 2016;15:57–9.Suche in Google Scholar

13. Armbrust M, Fox A, Griffith. A view of cloud computing. Commun ACM. 2010;53:50–8.10.1145/1721654.1721672Suche in Google Scholar

14. Foster I, Zhao Y, Raicu I, Lu S. Cloud computing and grid computing 360-degree compared. 2008 Ieee, grid computing environments workshop, GCE 2008, 2008:1–10.10.1109/GCE.2008.4738445Suche in Google Scholar

15. Zhang J, Chen X, Ji Y, Zhao Y, Zhang M, Li H. Experimental demonstration of a DREAM-based optical transport network with 1000 control plane nodes. European conference and exposition on optical communications. Optical Society of America, 2011:We. 10. P1. 84.10.1364/ECOC.2011.We.10.P1.84Suche in Google Scholar

16. Zhao Y, Zhang J, Zhang M, Ji Y. DREAM: dual routing engine architecture in multilayer and multidomain optical networks. IEEE Commun Magazine. 2013;51:118–27.10.1109/MCOM.2013.6515056Suche in Google Scholar

17. Yi H, Zhao X. Research and implementation of topology automatic discovery of EPON-EoC. Opt Commun Research. 2015;2:11–13+23.Suche in Google Scholar

18. Kramer G, De Andrade M, Roy R, Chowdhury p. Evolution of optical access networks: architectures and capacity upgrades. Proc IEEE. 2012;100:1188–96.10.1109/JPROC.2011.2176690Suche in Google Scholar

19. Lu W, Zhu ZQ. Dynamic service provisioning of advance reservation requests in elastic optical networks. J Lightwave Technol. 2013;31:1621–7.10.1109/JLT.2013.2254468Suche in Google Scholar
Received: 2018-10-28
Accepted: 2018-12-03
Published Online: 2019-01-17
Published in Print: 2022-04-26

© 2019 Walter de Gruyter GmbH, Berlin/Boston

Artikel in diesem Heft

  1. Frontmatter
  2. Amplifiers
  3. Performance Investigate and Analysis of 96 × 10 Gbps DWDM System Using Suitable Rating from Optical Amplifiers
  4. Devices
  5. Design and Analysis of 3-Input NAND/NOR/XNOR Gate Based on 2D Photonic Crystals
  6. All-Optical Switching Device Using Plasmonic Mach-Zehnder Interferometer Structure
  7. Fibers
  8. Theoretical Assessment of a Porous Core Photonic Crystal Fiber for Terahertz Wave Propagation
  9. Networks
  10. Method and Algorithm for Topology Automatic Discovery in Complicated Passive Optical Network Architecture
  11. The Engagement of Hybrid Ultra High Space Division Multiplexing with Maximum Time Division Multiplexing Techniques for High-Speed Single-Mode Fiber Cable Systems
  12. Hybrid Algorithm Based Effective Light Trail Creation in an Optical Networks
  13. Adaptive Scheduling Mechanism with Variable Bit Rate Traffic in EPON
  14. A Novel Implementation of TCP Vegas by UsingA Fuzzy-Threshold Base Algorithm to Improve Performance of Optical Networks
  15. Improving Performance of Optical Networks by a Probable Approach
  16. Systems
  17. UltraHigh Bit-Rate Hybrid DWDM Optical System Design Using DP-QPSK Modulation
  18. Performance Limits of FSO Based SAC-OCDMA System Under Weather Conditions
  19. Performance Appraisal of Sigma Delta Modulated Radio over Fiber System
  20. Behavior study of EDEU optical code for FE-OCDMA system
  21. Performances enhancement of underwater wireless optical communications (UWOC) using pulse position modulation
  22. Theory
  23. Design and Simulation of OFDM for BPSK, QPSK and QAM with Peak Power Reduction Using Clipping Technique
https://doi.org/10.1515/joc-2018-0196
Schlagwörter für diesen Artikel
Passive optical network (PON); network management system (NMS); topology automatic discovery

Artikel in diesem Heft

  1. Frontmatter
  2. Amplifiers
  3. Performance Investigate and Analysis of 96 × 10 Gbps DWDM System Using Suitable Rating from Optical Amplifiers
  4. Devices
  5. Design and Analysis of 3-Input NAND/NOR/XNOR Gate Based on 2D Photonic Crystals
  6. All-Optical Switching Device Using Plasmonic Mach-Zehnder Interferometer Structure
  7. Fibers
  8. Theoretical Assessment of a Porous Core Photonic Crystal Fiber for Terahertz Wave Propagation
  9. Networks
  10. Method and Algorithm for Topology Automatic Discovery in Complicated Passive Optical Network Architecture
  11. The Engagement of Hybrid Ultra High Space Division Multiplexing with Maximum Time Division Multiplexing Techniques for High-Speed Single-Mode Fiber Cable Systems
  12. Hybrid Algorithm Based Effective Light Trail Creation in an Optical Networks
  13. Adaptive Scheduling Mechanism with Variable Bit Rate Traffic in EPON
  14. A Novel Implementation of TCP Vegas by UsingA Fuzzy-Threshold Base Algorithm to Improve Performance of Optical Networks
  15. Improving Performance of Optical Networks by a Probable Approach
  16. Systems
  17. UltraHigh Bit-Rate Hybrid DWDM Optical System Design Using DP-QPSK Modulation
  18. Performance Limits of FSO Based SAC-OCDMA System Under Weather Conditions
  19. Performance Appraisal of Sigma Delta Modulated Radio over Fiber System
  20. Behavior study of EDEU optical code for FE-OCDMA system
  21. Performances enhancement of underwater wireless optical communications (UWOC) using pulse position modulation
  22. Theory
  23. Design and Simulation of OFDM for BPSK, QPSK and QAM with Peak Power Reduction Using Clipping Technique
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