Un enfoque probabilístico en la autorreparación de redes G-PON

García-Algarra, J.; González-Ordás, J.; Arozarena, P.; Afonso, R.; Carrera, Á.

doi:10.1016/j.riai.2013.11.005

Información del artículo

Resumen

Texto completo

Bibliografía

Descargar PDF

Estadísticas

Resumen

El despliegue de accesos de fibra óptica hasta los hogares (Fiber To The Home, FTTH en adelante) es una prioridad de los operadores de telecomunicación para soportar nuevos servicios digitales y mejorar la experiencia de los usuarios. G-PON es la tecnología más común; su instalación plantea importantes retos en el diagnóstico y reparación de averías de esta infraestructura, de características muy diferentes a las de los tradicionales pares de cobre. En este artículo presentamos una experiencia basada en un enfoque probabilístico del problema. Copyright © 2014 CEA. Publicado por Elsevier España, S.L. Todos los derechos reservados.

Palabras clave:

FTTH

G-PON

red bayesiana

agentes

autorreparación.

Abstract

Fiber To The Home (FTTH) rollout is a priority for telecom operators to provide fixed broadband new services and improve customer experience. G-PON is the most common technical choice that creates new challenges related to diagnosis and self healing. A probabilistic approach has been evaluated in a lab environment to overcome the uncertainties of this scenario, and results that is suitable for live network.

Keywords:

FTTH

G-PON

Bayesian Network

agents

self healing.

Texto completo

Referencias no citadas

Badonnel et al., 2006, Barco-Moreno, 2007, Bellifemine et al., 2007, Bratmann, 1987, Brunner et al., 2009, Carrera et al., 2012, Chen et al., 2009, Creaner and Reilly, 2005, Ding et al., 2004, Ding et al., 2006, Faloutsos et al., 1999, García-Algarra et al., 2011, García-Gómez, 2009, ITU, 1989, Lee, 2007, Moštak et al., 2010, Pearl, 1985, Prieto et al., 2011 and Sedano et al., 2010.

Referencias

[Badonnel et al., 2006]

Badonnel R., State R., Festor O. 2006. Probabilistic Management of Ad-Hoc Networks, NOMS 2006, Vancouver, Canada. DOI: 10.1109/NOMS.2006.1687564.

[Barco-Moreno, 2007]

Barco-Moreno R. 2007. Bayesian modeling of fault diagnosis in mobile communication networks. Ph. D. dissertation, Universidad de Málaga, Spain.

[Bellifemine et al., 2007]

F. Bellifemine, G. Caire, D. Greenwood.

Developing Multi-Agent Systems with JADE,.

John Wiley & Sons, (2007),

[Bratmann, 1987]

M. Bratmann.

Intentions, Plans and Practical Reason.

CSLI Publications, (1987),

[Brunner et al., 2009]

Brunner M., Dudkowski D., Mingardi C., Nunzi G. 2009. Probabilistic Decentralized Network Management, Proceedings IEEE INM 2009, Hofstra University, Long Island, New York, USA, pp. 25-32. DOI: 10.1109/INM.2009.5188783.

[Carrera et al., 2012]

A. Carrera, C.A. Iglesias, J. García-Algarra, D. Kolařík.

A real-life application of multi-agent systems for fault diagnosis in the provision of an internet business service.

Journal of Network and Computer Applications, (2012), pp. 004

[Chen et al., 2009]

Chen C., Nagi S., Clack C. 2009, Complexity and Emergence in Engineering Systems. Complex Systems in Knowledge based Environments: Theory, Models and Applications. Tolk, Andreas; Jain, Lakhmi C. (editors). Springer: New York, NY, USA. DOI: 10.1007/978-3-540-88075-2_5.

[Creaner and Reilly, 2005]

M. Creaner, J. Reilly.

NGOSS Distilled – The Essential Guide to Next Generation Telecoms Management.

The Lean Corporation, (2005),

[Ding et al., 2004]

J. Ding, B. Krämer, S. Xu, H. Chen, Y. Bai.

Predictive Fault Management in the Dynamic Environment of IP Networks.

Proceedings IEEE Workshop on IP Operations and Management, (2004), pp. 233-239

[Ding et al., 2006]

Ding J., Jiang N., Li X., Krämer B., Davoli F., Bai Y. 2006. Construction of Simulation or Probabilistic Inference in uncertain and Dynamic Networks Based on Bayesian Networks, Intermational Coference on ITS Telecommunications, pp. 983-986. DOI: 10.1109/ITST.2006.288718.

[Faloutsos et al., 1999]

M. Faloutsos, P. Faloutsos, C. Faloutsos.

On power-law relationships of the Internet topology.

Proceedings of the conference on Applications, technologies, architectures, and protocols for computer communication, (1999), pp. 251-262

[García-Algarra et al., 2011]

García-Algarra J., Arozarena-Llopis P., García-Gómez S., Carrera-Barroso A., Toribio-Sardón R. 2011. A Lightweight Approach to Distributed Network Diagnosis under Uncertainty. In Intelligent Networking, Collaborative Systems and Applications. S. Caballé, F Xhafa and A. Ajith (editors). Springer, pp. 95-116. DOI: 10.1007/978-3-642-16793-5_5.

[García-Gómez, 2009]

García-Gómez S. González-Ordás J., García-Algarra J., Toribio-Sardón R., Sedano-Frade A., Buisán-García, F. KOWLAN: A Multi Agent System for Bayesian Diagnosis in Telecommunication Networks. Web Intelligence and Intelligent Agent Technologies, 2009. WI-IAT’09. IEEE/WIC/ACM International Joint Conferences on. Vol. 3, pp. 195-198.

[ITU, 1989]

ITU-T, 1989. Principles for a Telecommunications Management Network, Recommendation M.3010.

[Lee, 2007]

G.J. Lee.

CAPRI: A Common Architecture for Distributed Probabilistic Internet Fault Diagnosis.

Ph. D. dissertation, CSAIL MIT, (2007),

[Moštak et al., 2010]

Moštak R., Spahija B., Deljac Ž. 2010. Fault diagnosis in Optical access network using Bayesian Network. SoftCom 2010. Proceedings, pp. 342-345.

[Pearl, 1985]

Pearl J. 1985. Bayesian networks: A model of self-activated memory for evidential reasoning, UCLA Report CSD-850017.

[Prieto et al., 2011]

A. Prieto, D. Gillblad, R. Steinert, A. Miron.

Toward decentralized probabilistic management.

IEEE Communications Magazine, 49 (2011), pp. 80-86

[Sedano et al., 2010]

Sedano A., González-Ordás J., Arozarena P., García-Gómez S., Carrera-Barroso A., 2010. Distributed Bayesian Diagnosis for Telecommunication Networks, Advances in Practical Applications of Agents and Multiagent Systems: 8th International Conference on Practical Applications of Agents and Multiagent Systems. DOI: 10.1007/978-3-642-12384-9_28.

Indexada en:

Síguenos:

Indexada en:

Síguenos:

Suscríbase a la newsletter