Abstract

The evolution of IT and network technologies has generated enormous opportunities for complex service innovation. However, the heterogeneous nature of the resources required for providing such complex services demand efficient coordination of distributed high-end IT resources (storage and computing) interconnected by high-capacity optical networks. To address this issue, a service plane architecture is proposed. The service plane architecture orchestrates and facilitates interconnection of heterogeneous optical networks, IT resources, and requestors of services (clients). We analyze and investigate one of the vital elements of this architecture: the description and dissemination of resource-state information required for service composition. We also analyze the impact of resource-state information accuracy on service provisioning performance. A service-oriented resource discovery mechanism has been developed to facilitate resource-state information discovery and dissemination. Several novel resource abstraction models and a novel resource update algorithm for the proposed service plane are presented and their performance evaluated. The results show that our algorithms are able to facilitate accurate resource-state information with significantly low signaling overheads.

© 2009 Optical Society of America

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  1. T. Lehman, J. Sobieski, B. Jabbari, “DRAGON: a framework for service provisioning in heterogeneous grid networks,” IEEE Commun. Mag., vol. 44, no. 3, pp. 84–90, March 2006.
    [CrossRef]
  2. T. Lehman, J. Sobieski, B. Jabbari, “Bandwidth virtualization enables a programmable optical network,” White Paper, Infinera Corporation, 169 Java Drive Sunnyvale, CA 94089, 2008.
  3. J. Chandrashekar, Z. Zhang, Z. Duan, Y. T. Hou, “Service oriented internet,” in Proc. Conf. on Service Oriented Computing, Berlin, Germany: Springer, 2003, pp. 543–558.
  4. F. Baroncelli, B. Martini, L. Valcarenghi, P. Castoldi, “A service oriented network architecture suitable for global Grid computing,” in Proc. Conf. on Optical Network Design and Modelling, IEEE, 2005, pp. 283–293.
  5. B. Martini, F. Baroncelli, P. Castoldi, “A novel service-oriented framework for automatic switched transport network,” in Proc. IFIP/IEEE Symp. on Integrated Network Management, IEEE, 2005, pp. 295–308.
  6. F. Baroncelli, B. Martini, V. Martini, P. Castoldi, “A distributed signaling for the provisioning of on-demand VPN services in transport networks,” in Proc. IFIP/IEEE Symp. on Integrated Network Management, IEEE, 2007, pp. 789–792.
  7. F. L. Verdi, R. Duarte, F. C. de Lacerda, E. Madeira, E. Cardozo, M. Magalhaes, “Provisioning and management of inter-domain connections in optical networks: a service oriented architecture-based approach,” in Proc. IEEE Conf. Network Operations and Management Symp., IEEE, 2006, pp. 1–4.
  8. F. L. Verdi, E. Madeira, M. Magalhaes, “On the performance of inter-domain provisioning of connections in optical networks using web services,” in Proc. IEEE Symp. on Computers and Communications, IEEE, 2006, pp. 955–960.
  9. F. L. Verdi, M. Magalhaes, E. Madeira, A. Welin, “Using virtualisation to provide interdomain QoS-enabled routing,” J. Networks, vol. 2, pp. 23–32, 2007.
    [CrossRef]
  10. J. Mambretti, D. Lillethun, J. Lange, J. Weinberger, “Optical dynamic intelligent network services (ODIN): an experimental control-plane architecture for high-performance distributed environments based on dynamic lightpath provisioning,” IEEE Commun. Mag., vol. 44, no. 3, pp. 92–99, March 2006.
    [CrossRef]
  11. G. Klyne, J. J. Carroll, “Resource Description Framework (RDF): concepts and abstract syntax,” http://www.w3.org/TR/rdf-concepts, W3C, 2004.
  12. M. Dean, G. Schreiber, “OWL Web Ontology Language reference,” http://www.w3.org/TR/owl-ref, W3C, 2004.
  13. R. Figueiredo, P. A. Dinda, J. Fortes, “Resource virtualization renaissance,” J. Complex., vol. 38, pp. 28–31, 2005.
  14. T. Chiueh, “Resource virtualization techniques for wide-area overlay networks,” ECSL Technical Report TR112, Stony Brook, NY: Computer Science Department, Stony Brook University.
  15. T. Anderson, L. Peterson, S. Shenker, J. Turner, “Overcoming the Internet impasse through virtualisation,” J. Complex., vol. 38, pp. 34–41, 2004.
  16. D. Martin, M. Burstein, J. Hobbs, O. Lassila, D. Mc-Dermott, S. McIlraith, S. Narayanan, M. Paolucci, B. Parsia, T. Payne, E. Sirin, N. Srinivasan, K. Sycara, “OWL-S: semantic markup for Web services,” http://www.w3.org/Submission/OWL-S, 2004.
  17. J. de Bruijn, C. Bussler, J. Domingue, D. Fensel, M. Hepp, U. Keller, M. Kifer, B. Konig-Ries, J. Kopecky, R. Lara, H. Lausen, E. Oren, A. Polleres, D. Roman, J. Scicluna, M. Stollberg, “Web service modelling ontology (WSMO),” http://www.w3.org/Submission/WSMO, 2005.
  18. S. Uludag, K. Lui, K. Nahrstedt, G. B. Brewster, “Analysis of topology aggregation techniques for QoS routing,” ACM Comput. Surv., vol. 39, no. 3, paper 7, 2007.
    [CrossRef]
  19. T. Korkmaz, M. Krunz, “Source-oriented topology aggregation with multiple QoS parameters in hierarchical networks,” ACM Trans. Model. Comput. Simul., vol. 10, pp. 295–325, 2000.
    [CrossRef]
  20. E. Marín-Tordera, X. Masip-Bruin, S. Sánchez-Lopez, J. Solé-Pareta, J. Domingo-Pascual, “A hierarchical routing approach for optical transport networks,” Comput. Netw., vol. 50, pp. 251–267, 2006.
    [CrossRef]

2007 (2)

F. L. Verdi, M. Magalhaes, E. Madeira, A. Welin, “Using virtualisation to provide interdomain QoS-enabled routing,” J. Networks, vol. 2, pp. 23–32, 2007.
[CrossRef]

S. Uludag, K. Lui, K. Nahrstedt, G. B. Brewster, “Analysis of topology aggregation techniques for QoS routing,” ACM Comput. Surv., vol. 39, no. 3, paper 7, 2007.
[CrossRef]

2006 (3)

T. Lehman, J. Sobieski, B. Jabbari, “DRAGON: a framework for service provisioning in heterogeneous grid networks,” IEEE Commun. Mag., vol. 44, no. 3, pp. 84–90, March 2006.
[CrossRef]

E. Marín-Tordera, X. Masip-Bruin, S. Sánchez-Lopez, J. Solé-Pareta, J. Domingo-Pascual, “A hierarchical routing approach for optical transport networks,” Comput. Netw., vol. 50, pp. 251–267, 2006.
[CrossRef]

J. Mambretti, D. Lillethun, J. Lange, J. Weinberger, “Optical dynamic intelligent network services (ODIN): an experimental control-plane architecture for high-performance distributed environments based on dynamic lightpath provisioning,” IEEE Commun. Mag., vol. 44, no. 3, pp. 92–99, March 2006.
[CrossRef]

2005 (1)

R. Figueiredo, P. A. Dinda, J. Fortes, “Resource virtualization renaissance,” J. Complex., vol. 38, pp. 28–31, 2005.

2004 (1)

T. Anderson, L. Peterson, S. Shenker, J. Turner, “Overcoming the Internet impasse through virtualisation,” J. Complex., vol. 38, pp. 34–41, 2004.

2000 (1)

T. Korkmaz, M. Krunz, “Source-oriented topology aggregation with multiple QoS parameters in hierarchical networks,” ACM Trans. Model. Comput. Simul., vol. 10, pp. 295–325, 2000.
[CrossRef]

Anderson, T.

T. Anderson, L. Peterson, S. Shenker, J. Turner, “Overcoming the Internet impasse through virtualisation,” J. Complex., vol. 38, pp. 34–41, 2004.

Baroncelli, F.

F. Baroncelli, B. Martini, L. Valcarenghi, P. Castoldi, “A service oriented network architecture suitable for global Grid computing,” in Proc. Conf. on Optical Network Design and Modelling, IEEE, 2005, pp. 283–293.

B. Martini, F. Baroncelli, P. Castoldi, “A novel service-oriented framework for automatic switched transport network,” in Proc. IFIP/IEEE Symp. on Integrated Network Management, IEEE, 2005, pp. 295–308.

F. Baroncelli, B. Martini, V. Martini, P. Castoldi, “A distributed signaling for the provisioning of on-demand VPN services in transport networks,” in Proc. IFIP/IEEE Symp. on Integrated Network Management, IEEE, 2007, pp. 789–792.

Brewster, G. B.

S. Uludag, K. Lui, K. Nahrstedt, G. B. Brewster, “Analysis of topology aggregation techniques for QoS routing,” ACM Comput. Surv., vol. 39, no. 3, paper 7, 2007.
[CrossRef]

Burstein, M.

D. Martin, M. Burstein, J. Hobbs, O. Lassila, D. Mc-Dermott, S. McIlraith, S. Narayanan, M. Paolucci, B. Parsia, T. Payne, E. Sirin, N. Srinivasan, K. Sycara, “OWL-S: semantic markup for Web services,” http://www.w3.org/Submission/OWL-S, 2004.

Bussler, C.

J. de Bruijn, C. Bussler, J. Domingue, D. Fensel, M. Hepp, U. Keller, M. Kifer, B. Konig-Ries, J. Kopecky, R. Lara, H. Lausen, E. Oren, A. Polleres, D. Roman, J. Scicluna, M. Stollberg, “Web service modelling ontology (WSMO),” http://www.w3.org/Submission/WSMO, 2005.

Cardozo, E.

F. L. Verdi, R. Duarte, F. C. de Lacerda, E. Madeira, E. Cardozo, M. Magalhaes, “Provisioning and management of inter-domain connections in optical networks: a service oriented architecture-based approach,” in Proc. IEEE Conf. Network Operations and Management Symp., IEEE, 2006, pp. 1–4.

Carroll, J. J.

G. Klyne, J. J. Carroll, “Resource Description Framework (RDF): concepts and abstract syntax,” http://www.w3.org/TR/rdf-concepts, W3C, 2004.

Castoldi, P.

F. Baroncelli, B. Martini, V. Martini, P. Castoldi, “A distributed signaling for the provisioning of on-demand VPN services in transport networks,” in Proc. IFIP/IEEE Symp. on Integrated Network Management, IEEE, 2007, pp. 789–792.

B. Martini, F. Baroncelli, P. Castoldi, “A novel service-oriented framework for automatic switched transport network,” in Proc. IFIP/IEEE Symp. on Integrated Network Management, IEEE, 2005, pp. 295–308.

F. Baroncelli, B. Martini, L. Valcarenghi, P. Castoldi, “A service oriented network architecture suitable for global Grid computing,” in Proc. Conf. on Optical Network Design and Modelling, IEEE, 2005, pp. 283–293.

Chandrashekar, J.

J. Chandrashekar, Z. Zhang, Z. Duan, Y. T. Hou, “Service oriented internet,” in Proc. Conf. on Service Oriented Computing, Berlin, Germany: Springer, 2003, pp. 543–558.

Chiueh, T.

T. Chiueh, “Resource virtualization techniques for wide-area overlay networks,” ECSL Technical Report TR112, Stony Brook, NY: Computer Science Department, Stony Brook University.

de Bruijn, J.

J. de Bruijn, C. Bussler, J. Domingue, D. Fensel, M. Hepp, U. Keller, M. Kifer, B. Konig-Ries, J. Kopecky, R. Lara, H. Lausen, E. Oren, A. Polleres, D. Roman, J. Scicluna, M. Stollberg, “Web service modelling ontology (WSMO),” http://www.w3.org/Submission/WSMO, 2005.

de Lacerda, F. C.

F. L. Verdi, R. Duarte, F. C. de Lacerda, E. Madeira, E. Cardozo, M. Magalhaes, “Provisioning and management of inter-domain connections in optical networks: a service oriented architecture-based approach,” in Proc. IEEE Conf. Network Operations and Management Symp., IEEE, 2006, pp. 1–4.

Dean, M.

M. Dean, G. Schreiber, “OWL Web Ontology Language reference,” http://www.w3.org/TR/owl-ref, W3C, 2004.

Dinda, P. A.

R. Figueiredo, P. A. Dinda, J. Fortes, “Resource virtualization renaissance,” J. Complex., vol. 38, pp. 28–31, 2005.

Domingo-Pascual, J.

E. Marín-Tordera, X. Masip-Bruin, S. Sánchez-Lopez, J. Solé-Pareta, J. Domingo-Pascual, “A hierarchical routing approach for optical transport networks,” Comput. Netw., vol. 50, pp. 251–267, 2006.
[CrossRef]

Domingue, J.

J. de Bruijn, C. Bussler, J. Domingue, D. Fensel, M. Hepp, U. Keller, M. Kifer, B. Konig-Ries, J. Kopecky, R. Lara, H. Lausen, E. Oren, A. Polleres, D. Roman, J. Scicluna, M. Stollberg, “Web service modelling ontology (WSMO),” http://www.w3.org/Submission/WSMO, 2005.

Duan, Z.

J. Chandrashekar, Z. Zhang, Z. Duan, Y. T. Hou, “Service oriented internet,” in Proc. Conf. on Service Oriented Computing, Berlin, Germany: Springer, 2003, pp. 543–558.

Duarte, R.

F. L. Verdi, R. Duarte, F. C. de Lacerda, E. Madeira, E. Cardozo, M. Magalhaes, “Provisioning and management of inter-domain connections in optical networks: a service oriented architecture-based approach,” in Proc. IEEE Conf. Network Operations and Management Symp., IEEE, 2006, pp. 1–4.

Fensel, D.

J. de Bruijn, C. Bussler, J. Domingue, D. Fensel, M. Hepp, U. Keller, M. Kifer, B. Konig-Ries, J. Kopecky, R. Lara, H. Lausen, E. Oren, A. Polleres, D. Roman, J. Scicluna, M. Stollberg, “Web service modelling ontology (WSMO),” http://www.w3.org/Submission/WSMO, 2005.

Figueiredo, R.

R. Figueiredo, P. A. Dinda, J. Fortes, “Resource virtualization renaissance,” J. Complex., vol. 38, pp. 28–31, 2005.

Fortes, J.

R. Figueiredo, P. A. Dinda, J. Fortes, “Resource virtualization renaissance,” J. Complex., vol. 38, pp. 28–31, 2005.

Hepp, M.

J. de Bruijn, C. Bussler, J. Domingue, D. Fensel, M. Hepp, U. Keller, M. Kifer, B. Konig-Ries, J. Kopecky, R. Lara, H. Lausen, E. Oren, A. Polleres, D. Roman, J. Scicluna, M. Stollberg, “Web service modelling ontology (WSMO),” http://www.w3.org/Submission/WSMO, 2005.

Hobbs, J.

D. Martin, M. Burstein, J. Hobbs, O. Lassila, D. Mc-Dermott, S. McIlraith, S. Narayanan, M. Paolucci, B. Parsia, T. Payne, E. Sirin, N. Srinivasan, K. Sycara, “OWL-S: semantic markup for Web services,” http://www.w3.org/Submission/OWL-S, 2004.

Hou, Y. T.

J. Chandrashekar, Z. Zhang, Z. Duan, Y. T. Hou, “Service oriented internet,” in Proc. Conf. on Service Oriented Computing, Berlin, Germany: Springer, 2003, pp. 543–558.

Jabbari, B.

T. Lehman, J. Sobieski, B. Jabbari, “DRAGON: a framework for service provisioning in heterogeneous grid networks,” IEEE Commun. Mag., vol. 44, no. 3, pp. 84–90, March 2006.
[CrossRef]

T. Lehman, J. Sobieski, B. Jabbari, “Bandwidth virtualization enables a programmable optical network,” White Paper, Infinera Corporation, 169 Java Drive Sunnyvale, CA 94089, 2008.

Keller, U.

J. de Bruijn, C. Bussler, J. Domingue, D. Fensel, M. Hepp, U. Keller, M. Kifer, B. Konig-Ries, J. Kopecky, R. Lara, H. Lausen, E. Oren, A. Polleres, D. Roman, J. Scicluna, M. Stollberg, “Web service modelling ontology (WSMO),” http://www.w3.org/Submission/WSMO, 2005.

Kifer, M.

J. de Bruijn, C. Bussler, J. Domingue, D. Fensel, M. Hepp, U. Keller, M. Kifer, B. Konig-Ries, J. Kopecky, R. Lara, H. Lausen, E. Oren, A. Polleres, D. Roman, J. Scicluna, M. Stollberg, “Web service modelling ontology (WSMO),” http://www.w3.org/Submission/WSMO, 2005.

Klyne, G.

G. Klyne, J. J. Carroll, “Resource Description Framework (RDF): concepts and abstract syntax,” http://www.w3.org/TR/rdf-concepts, W3C, 2004.

Konig-Ries, B.

J. de Bruijn, C. Bussler, J. Domingue, D. Fensel, M. Hepp, U. Keller, M. Kifer, B. Konig-Ries, J. Kopecky, R. Lara, H. Lausen, E. Oren, A. Polleres, D. Roman, J. Scicluna, M. Stollberg, “Web service modelling ontology (WSMO),” http://www.w3.org/Submission/WSMO, 2005.

Kopecky, J.

J. de Bruijn, C. Bussler, J. Domingue, D. Fensel, M. Hepp, U. Keller, M. Kifer, B. Konig-Ries, J. Kopecky, R. Lara, H. Lausen, E. Oren, A. Polleres, D. Roman, J. Scicluna, M. Stollberg, “Web service modelling ontology (WSMO),” http://www.w3.org/Submission/WSMO, 2005.

Korkmaz, T.

T. Korkmaz, M. Krunz, “Source-oriented topology aggregation with multiple QoS parameters in hierarchical networks,” ACM Trans. Model. Comput. Simul., vol. 10, pp. 295–325, 2000.
[CrossRef]

Krunz, M.

T. Korkmaz, M. Krunz, “Source-oriented topology aggregation with multiple QoS parameters in hierarchical networks,” ACM Trans. Model. Comput. Simul., vol. 10, pp. 295–325, 2000.
[CrossRef]

Lange, J.

J. Mambretti, D. Lillethun, J. Lange, J. Weinberger, “Optical dynamic intelligent network services (ODIN): an experimental control-plane architecture for high-performance distributed environments based on dynamic lightpath provisioning,” IEEE Commun. Mag., vol. 44, no. 3, pp. 92–99, March 2006.
[CrossRef]

Lara, R.

J. de Bruijn, C. Bussler, J. Domingue, D. Fensel, M. Hepp, U. Keller, M. Kifer, B. Konig-Ries, J. Kopecky, R. Lara, H. Lausen, E. Oren, A. Polleres, D. Roman, J. Scicluna, M. Stollberg, “Web service modelling ontology (WSMO),” http://www.w3.org/Submission/WSMO, 2005.

Lassila, O.

D. Martin, M. Burstein, J. Hobbs, O. Lassila, D. Mc-Dermott, S. McIlraith, S. Narayanan, M. Paolucci, B. Parsia, T. Payne, E. Sirin, N. Srinivasan, K. Sycara, “OWL-S: semantic markup for Web services,” http://www.w3.org/Submission/OWL-S, 2004.

Lausen, H.

J. de Bruijn, C. Bussler, J. Domingue, D. Fensel, M. Hepp, U. Keller, M. Kifer, B. Konig-Ries, J. Kopecky, R. Lara, H. Lausen, E. Oren, A. Polleres, D. Roman, J. Scicluna, M. Stollberg, “Web service modelling ontology (WSMO),” http://www.w3.org/Submission/WSMO, 2005.

Lehman, T.

T. Lehman, J. Sobieski, B. Jabbari, “DRAGON: a framework for service provisioning in heterogeneous grid networks,” IEEE Commun. Mag., vol. 44, no. 3, pp. 84–90, March 2006.
[CrossRef]

T. Lehman, J. Sobieski, B. Jabbari, “Bandwidth virtualization enables a programmable optical network,” White Paper, Infinera Corporation, 169 Java Drive Sunnyvale, CA 94089, 2008.

Lillethun, D.

J. Mambretti, D. Lillethun, J. Lange, J. Weinberger, “Optical dynamic intelligent network services (ODIN): an experimental control-plane architecture for high-performance distributed environments based on dynamic lightpath provisioning,” IEEE Commun. Mag., vol. 44, no. 3, pp. 92–99, March 2006.
[CrossRef]

Lui, K.

S. Uludag, K. Lui, K. Nahrstedt, G. B. Brewster, “Analysis of topology aggregation techniques for QoS routing,” ACM Comput. Surv., vol. 39, no. 3, paper 7, 2007.
[CrossRef]

Madeira, E.

F. L. Verdi, M. Magalhaes, E. Madeira, A. Welin, “Using virtualisation to provide interdomain QoS-enabled routing,” J. Networks, vol. 2, pp. 23–32, 2007.
[CrossRef]

F. L. Verdi, E. Madeira, M. Magalhaes, “On the performance of inter-domain provisioning of connections in optical networks using web services,” in Proc. IEEE Symp. on Computers and Communications, IEEE, 2006, pp. 955–960.

F. L. Verdi, R. Duarte, F. C. de Lacerda, E. Madeira, E. Cardozo, M. Magalhaes, “Provisioning and management of inter-domain connections in optical networks: a service oriented architecture-based approach,” in Proc. IEEE Conf. Network Operations and Management Symp., IEEE, 2006, pp. 1–4.

Magalhaes, M.

F. L. Verdi, M. Magalhaes, E. Madeira, A. Welin, “Using virtualisation to provide interdomain QoS-enabled routing,” J. Networks, vol. 2, pp. 23–32, 2007.
[CrossRef]

F. L. Verdi, E. Madeira, M. Magalhaes, “On the performance of inter-domain provisioning of connections in optical networks using web services,” in Proc. IEEE Symp. on Computers and Communications, IEEE, 2006, pp. 955–960.

F. L. Verdi, R. Duarte, F. C. de Lacerda, E. Madeira, E. Cardozo, M. Magalhaes, “Provisioning and management of inter-domain connections in optical networks: a service oriented architecture-based approach,” in Proc. IEEE Conf. Network Operations and Management Symp., IEEE, 2006, pp. 1–4.

Mambretti, J.

J. Mambretti, D. Lillethun, J. Lange, J. Weinberger, “Optical dynamic intelligent network services (ODIN): an experimental control-plane architecture for high-performance distributed environments based on dynamic lightpath provisioning,” IEEE Commun. Mag., vol. 44, no. 3, pp. 92–99, March 2006.
[CrossRef]

Marín-Tordera, E.

E. Marín-Tordera, X. Masip-Bruin, S. Sánchez-Lopez, J. Solé-Pareta, J. Domingo-Pascual, “A hierarchical routing approach for optical transport networks,” Comput. Netw., vol. 50, pp. 251–267, 2006.
[CrossRef]

Martin, D.

D. Martin, M. Burstein, J. Hobbs, O. Lassila, D. Mc-Dermott, S. McIlraith, S. Narayanan, M. Paolucci, B. Parsia, T. Payne, E. Sirin, N. Srinivasan, K. Sycara, “OWL-S: semantic markup for Web services,” http://www.w3.org/Submission/OWL-S, 2004.

Martini, B.

B. Martini, F. Baroncelli, P. Castoldi, “A novel service-oriented framework for automatic switched transport network,” in Proc. IFIP/IEEE Symp. on Integrated Network Management, IEEE, 2005, pp. 295–308.

F. Baroncelli, B. Martini, L. Valcarenghi, P. Castoldi, “A service oriented network architecture suitable for global Grid computing,” in Proc. Conf. on Optical Network Design and Modelling, IEEE, 2005, pp. 283–293.

F. Baroncelli, B. Martini, V. Martini, P. Castoldi, “A distributed signaling for the provisioning of on-demand VPN services in transport networks,” in Proc. IFIP/IEEE Symp. on Integrated Network Management, IEEE, 2007, pp. 789–792.

Martini, V.

F. Baroncelli, B. Martini, V. Martini, P. Castoldi, “A distributed signaling for the provisioning of on-demand VPN services in transport networks,” in Proc. IFIP/IEEE Symp. on Integrated Network Management, IEEE, 2007, pp. 789–792.

Masip-Bruin, X.

E. Marín-Tordera, X. Masip-Bruin, S. Sánchez-Lopez, J. Solé-Pareta, J. Domingo-Pascual, “A hierarchical routing approach for optical transport networks,” Comput. Netw., vol. 50, pp. 251–267, 2006.
[CrossRef]

Mc-Dermott, D.

D. Martin, M. Burstein, J. Hobbs, O. Lassila, D. Mc-Dermott, S. McIlraith, S. Narayanan, M. Paolucci, B. Parsia, T. Payne, E. Sirin, N. Srinivasan, K. Sycara, “OWL-S: semantic markup for Web services,” http://www.w3.org/Submission/OWL-S, 2004.

McIlraith, S.

D. Martin, M. Burstein, J. Hobbs, O. Lassila, D. Mc-Dermott, S. McIlraith, S. Narayanan, M. Paolucci, B. Parsia, T. Payne, E. Sirin, N. Srinivasan, K. Sycara, “OWL-S: semantic markup for Web services,” http://www.w3.org/Submission/OWL-S, 2004.

Nahrstedt, K.

S. Uludag, K. Lui, K. Nahrstedt, G. B. Brewster, “Analysis of topology aggregation techniques for QoS routing,” ACM Comput. Surv., vol. 39, no. 3, paper 7, 2007.
[CrossRef]

Narayanan, S.

D. Martin, M. Burstein, J. Hobbs, O. Lassila, D. Mc-Dermott, S. McIlraith, S. Narayanan, M. Paolucci, B. Parsia, T. Payne, E. Sirin, N. Srinivasan, K. Sycara, “OWL-S: semantic markup for Web services,” http://www.w3.org/Submission/OWL-S, 2004.

Oren, E.

J. de Bruijn, C. Bussler, J. Domingue, D. Fensel, M. Hepp, U. Keller, M. Kifer, B. Konig-Ries, J. Kopecky, R. Lara, H. Lausen, E. Oren, A. Polleres, D. Roman, J. Scicluna, M. Stollberg, “Web service modelling ontology (WSMO),” http://www.w3.org/Submission/WSMO, 2005.

Paolucci, M.

D. Martin, M. Burstein, J. Hobbs, O. Lassila, D. Mc-Dermott, S. McIlraith, S. Narayanan, M. Paolucci, B. Parsia, T. Payne, E. Sirin, N. Srinivasan, K. Sycara, “OWL-S: semantic markup for Web services,” http://www.w3.org/Submission/OWL-S, 2004.

Parsia, B.

D. Martin, M. Burstein, J. Hobbs, O. Lassila, D. Mc-Dermott, S. McIlraith, S. Narayanan, M. Paolucci, B. Parsia, T. Payne, E. Sirin, N. Srinivasan, K. Sycara, “OWL-S: semantic markup for Web services,” http://www.w3.org/Submission/OWL-S, 2004.

Payne, T.

D. Martin, M. Burstein, J. Hobbs, O. Lassila, D. Mc-Dermott, S. McIlraith, S. Narayanan, M. Paolucci, B. Parsia, T. Payne, E. Sirin, N. Srinivasan, K. Sycara, “OWL-S: semantic markup for Web services,” http://www.w3.org/Submission/OWL-S, 2004.

Peterson, L.

T. Anderson, L. Peterson, S. Shenker, J. Turner, “Overcoming the Internet impasse through virtualisation,” J. Complex., vol. 38, pp. 34–41, 2004.

Polleres, A.

J. de Bruijn, C. Bussler, J. Domingue, D. Fensel, M. Hepp, U. Keller, M. Kifer, B. Konig-Ries, J. Kopecky, R. Lara, H. Lausen, E. Oren, A. Polleres, D. Roman, J. Scicluna, M. Stollberg, “Web service modelling ontology (WSMO),” http://www.w3.org/Submission/WSMO, 2005.

Roman, D.

J. de Bruijn, C. Bussler, J. Domingue, D. Fensel, M. Hepp, U. Keller, M. Kifer, B. Konig-Ries, J. Kopecky, R. Lara, H. Lausen, E. Oren, A. Polleres, D. Roman, J. Scicluna, M. Stollberg, “Web service modelling ontology (WSMO),” http://www.w3.org/Submission/WSMO, 2005.

Sánchez-Lopez, S.

E. Marín-Tordera, X. Masip-Bruin, S. Sánchez-Lopez, J. Solé-Pareta, J. Domingo-Pascual, “A hierarchical routing approach for optical transport networks,” Comput. Netw., vol. 50, pp. 251–267, 2006.
[CrossRef]

Schreiber, G.

M. Dean, G. Schreiber, “OWL Web Ontology Language reference,” http://www.w3.org/TR/owl-ref, W3C, 2004.

Scicluna, J.

J. de Bruijn, C. Bussler, J. Domingue, D. Fensel, M. Hepp, U. Keller, M. Kifer, B. Konig-Ries, J. Kopecky, R. Lara, H. Lausen, E. Oren, A. Polleres, D. Roman, J. Scicluna, M. Stollberg, “Web service modelling ontology (WSMO),” http://www.w3.org/Submission/WSMO, 2005.

Shenker, S.

T. Anderson, L. Peterson, S. Shenker, J. Turner, “Overcoming the Internet impasse through virtualisation,” J. Complex., vol. 38, pp. 34–41, 2004.

Sirin, E.

D. Martin, M. Burstein, J. Hobbs, O. Lassila, D. Mc-Dermott, S. McIlraith, S. Narayanan, M. Paolucci, B. Parsia, T. Payne, E. Sirin, N. Srinivasan, K. Sycara, “OWL-S: semantic markup for Web services,” http://www.w3.org/Submission/OWL-S, 2004.

Sobieski, J.

T. Lehman, J. Sobieski, B. Jabbari, “DRAGON: a framework for service provisioning in heterogeneous grid networks,” IEEE Commun. Mag., vol. 44, no. 3, pp. 84–90, March 2006.
[CrossRef]

T. Lehman, J. Sobieski, B. Jabbari, “Bandwidth virtualization enables a programmable optical network,” White Paper, Infinera Corporation, 169 Java Drive Sunnyvale, CA 94089, 2008.

Solé-Pareta, J.

E. Marín-Tordera, X. Masip-Bruin, S. Sánchez-Lopez, J. Solé-Pareta, J. Domingo-Pascual, “A hierarchical routing approach for optical transport networks,” Comput. Netw., vol. 50, pp. 251–267, 2006.
[CrossRef]

Srinivasan, N.

D. Martin, M. Burstein, J. Hobbs, O. Lassila, D. Mc-Dermott, S. McIlraith, S. Narayanan, M. Paolucci, B. Parsia, T. Payne, E. Sirin, N. Srinivasan, K. Sycara, “OWL-S: semantic markup for Web services,” http://www.w3.org/Submission/OWL-S, 2004.

Stollberg, M.

J. de Bruijn, C. Bussler, J. Domingue, D. Fensel, M. Hepp, U. Keller, M. Kifer, B. Konig-Ries, J. Kopecky, R. Lara, H. Lausen, E. Oren, A. Polleres, D. Roman, J. Scicluna, M. Stollberg, “Web service modelling ontology (WSMO),” http://www.w3.org/Submission/WSMO, 2005.

Sycara, K.

D. Martin, M. Burstein, J. Hobbs, O. Lassila, D. Mc-Dermott, S. McIlraith, S. Narayanan, M. Paolucci, B. Parsia, T. Payne, E. Sirin, N. Srinivasan, K. Sycara, “OWL-S: semantic markup for Web services,” http://www.w3.org/Submission/OWL-S, 2004.

Turner, J.

T. Anderson, L. Peterson, S. Shenker, J. Turner, “Overcoming the Internet impasse through virtualisation,” J. Complex., vol. 38, pp. 34–41, 2004.

Uludag, S.

S. Uludag, K. Lui, K. Nahrstedt, G. B. Brewster, “Analysis of topology aggregation techniques for QoS routing,” ACM Comput. Surv., vol. 39, no. 3, paper 7, 2007.
[CrossRef]

Valcarenghi, L.

F. Baroncelli, B. Martini, L. Valcarenghi, P. Castoldi, “A service oriented network architecture suitable for global Grid computing,” in Proc. Conf. on Optical Network Design and Modelling, IEEE, 2005, pp. 283–293.

Verdi, F. L.

F. L. Verdi, M. Magalhaes, E. Madeira, A. Welin, “Using virtualisation to provide interdomain QoS-enabled routing,” J. Networks, vol. 2, pp. 23–32, 2007.
[CrossRef]

F. L. Verdi, E. Madeira, M. Magalhaes, “On the performance of inter-domain provisioning of connections in optical networks using web services,” in Proc. IEEE Symp. on Computers and Communications, IEEE, 2006, pp. 955–960.

F. L. Verdi, R. Duarte, F. C. de Lacerda, E. Madeira, E. Cardozo, M. Magalhaes, “Provisioning and management of inter-domain connections in optical networks: a service oriented architecture-based approach,” in Proc. IEEE Conf. Network Operations and Management Symp., IEEE, 2006, pp. 1–4.

Weinberger, J.

J. Mambretti, D. Lillethun, J. Lange, J. Weinberger, “Optical dynamic intelligent network services (ODIN): an experimental control-plane architecture for high-performance distributed environments based on dynamic lightpath provisioning,” IEEE Commun. Mag., vol. 44, no. 3, pp. 92–99, March 2006.
[CrossRef]

Welin, A.

F. L. Verdi, M. Magalhaes, E. Madeira, A. Welin, “Using virtualisation to provide interdomain QoS-enabled routing,” J. Networks, vol. 2, pp. 23–32, 2007.
[CrossRef]

Zhang, Z.

J. Chandrashekar, Z. Zhang, Z. Duan, Y. T. Hou, “Service oriented internet,” in Proc. Conf. on Service Oriented Computing, Berlin, Germany: Springer, 2003, pp. 543–558.

ACM Comput. Surv. (1)

S. Uludag, K. Lui, K. Nahrstedt, G. B. Brewster, “Analysis of topology aggregation techniques for QoS routing,” ACM Comput. Surv., vol. 39, no. 3, paper 7, 2007.
[CrossRef]

ACM Trans. Model. Comput. Simul. (1)

T. Korkmaz, M. Krunz, “Source-oriented topology aggregation with multiple QoS parameters in hierarchical networks,” ACM Trans. Model. Comput. Simul., vol. 10, pp. 295–325, 2000.
[CrossRef]

Comput. Netw. (1)

E. Marín-Tordera, X. Masip-Bruin, S. Sánchez-Lopez, J. Solé-Pareta, J. Domingo-Pascual, “A hierarchical routing approach for optical transport networks,” Comput. Netw., vol. 50, pp. 251–267, 2006.
[CrossRef]

IEEE Commun. Mag. (2)

J. Mambretti, D. Lillethun, J. Lange, J. Weinberger, “Optical dynamic intelligent network services (ODIN): an experimental control-plane architecture for high-performance distributed environments based on dynamic lightpath provisioning,” IEEE Commun. Mag., vol. 44, no. 3, pp. 92–99, March 2006.
[CrossRef]

T. Lehman, J. Sobieski, B. Jabbari, “DRAGON: a framework for service provisioning in heterogeneous grid networks,” IEEE Commun. Mag., vol. 44, no. 3, pp. 84–90, March 2006.
[CrossRef]

J. Complex. (2)

R. Figueiredo, P. A. Dinda, J. Fortes, “Resource virtualization renaissance,” J. Complex., vol. 38, pp. 28–31, 2005.

T. Anderson, L. Peterson, S. Shenker, J. Turner, “Overcoming the Internet impasse through virtualisation,” J. Complex., vol. 38, pp. 34–41, 2004.

J. Networks (1)

F. L. Verdi, M. Magalhaes, E. Madeira, A. Welin, “Using virtualisation to provide interdomain QoS-enabled routing,” J. Networks, vol. 2, pp. 23–32, 2007.
[CrossRef]

Other (12)

D. Martin, M. Burstein, J. Hobbs, O. Lassila, D. Mc-Dermott, S. McIlraith, S. Narayanan, M. Paolucci, B. Parsia, T. Payne, E. Sirin, N. Srinivasan, K. Sycara, “OWL-S: semantic markup for Web services,” http://www.w3.org/Submission/OWL-S, 2004.

J. de Bruijn, C. Bussler, J. Domingue, D. Fensel, M. Hepp, U. Keller, M. Kifer, B. Konig-Ries, J. Kopecky, R. Lara, H. Lausen, E. Oren, A. Polleres, D. Roman, J. Scicluna, M. Stollberg, “Web service modelling ontology (WSMO),” http://www.w3.org/Submission/WSMO, 2005.

T. Chiueh, “Resource virtualization techniques for wide-area overlay networks,” ECSL Technical Report TR112, Stony Brook, NY: Computer Science Department, Stony Brook University.

G. Klyne, J. J. Carroll, “Resource Description Framework (RDF): concepts and abstract syntax,” http://www.w3.org/TR/rdf-concepts, W3C, 2004.

M. Dean, G. Schreiber, “OWL Web Ontology Language reference,” http://www.w3.org/TR/owl-ref, W3C, 2004.

T. Lehman, J. Sobieski, B. Jabbari, “Bandwidth virtualization enables a programmable optical network,” White Paper, Infinera Corporation, 169 Java Drive Sunnyvale, CA 94089, 2008.

J. Chandrashekar, Z. Zhang, Z. Duan, Y. T. Hou, “Service oriented internet,” in Proc. Conf. on Service Oriented Computing, Berlin, Germany: Springer, 2003, pp. 543–558.

F. Baroncelli, B. Martini, L. Valcarenghi, P. Castoldi, “A service oriented network architecture suitable for global Grid computing,” in Proc. Conf. on Optical Network Design and Modelling, IEEE, 2005, pp. 283–293.

B. Martini, F. Baroncelli, P. Castoldi, “A novel service-oriented framework for automatic switched transport network,” in Proc. IFIP/IEEE Symp. on Integrated Network Management, IEEE, 2005, pp. 295–308.

F. Baroncelli, B. Martini, V. Martini, P. Castoldi, “A distributed signaling for the provisioning of on-demand VPN services in transport networks,” in Proc. IFIP/IEEE Symp. on Integrated Network Management, IEEE, 2007, pp. 789–792.

F. L. Verdi, R. Duarte, F. C. de Lacerda, E. Madeira, E. Cardozo, M. Magalhaes, “Provisioning and management of inter-domain connections in optical networks: a service oriented architecture-based approach,” in Proc. IEEE Conf. Network Operations and Management Symp., IEEE, 2006, pp. 1–4.

F. L. Verdi, E. Madeira, M. Magalhaes, “On the performance of inter-domain provisioning of connections in optical networks using web services,” in Proc. IEEE Symp. on Computers and Communications, IEEE, 2006, pp. 955–960.

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Figures (12)

Fig. 1
Fig. 1

Service plane architectural overview.

Fig. 2
Fig. 2

Service plane interactions.

Fig. 3
Fig. 3

Flowchart of service plane main actions.

Fig. 4
Fig. 4

Resource graph.

Fig. 5
Fig. 5

Pseudocode for network abstraction algorithm.

Fig. 6
Fig. 6

Pseudocode for EKK.

Fig. 7
Fig. 7

(a) NSFNET, (b) GEANT2.

Fig. 8
Fig. 8

GEANT2: effect of the number of paths used to calculate the connectivity between service end nodes; (a) success ratio, (b) crank-backs, (c) precision probability.

Fig. 9
Fig. 9

NSFNET: effect of the number of paths used to calculate the connectivity between service end nodes; (a) success ratio, (b) crank-backs, (c) precision probability.

Fig. 10
Fig. 10

Impact of IT resource abstraction and network abstractions on the precision probability on the (a) GEANT2 topology and (b) NSFNET topology.

Fig. 11
Fig. 11

Min–max achievable success ratio across all the abstraction models using the update algorithm parameters of Table 2 on the (a) GEANT2 and (b) NSFNET topologies.

Fig. 12
Fig. 12

(a) GEANT2, (b) NSFNET, number of update messages.

Tables (2)

Tables Icon

Table 1 Resource Information Model

Tables Icon

Table 2 Threshold Parameters for Update Algorithm

Equations (3)

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Success ratio = Number of related requests Number of feasible requests .
Crank-back ratio = Total number of crank-back requests Total number of requests returned by the abstraction algorithm .
Precision probability = Success ratio Crank-back ratio .