| 2520 | , "Software-Defined Network Exchanges (SDXs): Architecture, services, capabilities, and foundation technologies." |
| 2521 | Teletraffic Congress (ITC), 2014 26th International, IEEE, |
| 2522 | 2014. |
| 2523 | doi:10.1109/itc.2014.6932970. |
| 2524 | <a href="http://dx.doi.org/10.1109/itc.2014.6932970">http://dx.doi.org/10.1109/itc.2014.6932970</a> |
| 2525 | <br><br><b>Abstract: </b>Software Defined Networks (SDNs), primarily based on OpenFlow, are being deployed in single domain networks around the world. The popularity of SDNs has given rise to multiple considerations about designing, implementing, and operating Software-Defined Network Exchanges (SDXs), to enable SDNs to interconnect SDN islands and to extend SDNs across multiple domains. These goals can be accomplished only by developing new techniques that extend the single domain orientation of current SDN/OpenFlow approaches to include capabilities for multidomain control, including those for resource discovery, signaling, and dynamic provisioning. Several networking research communities have begun to investigate these concepts. Early architectural models of SDXs have been designed and implemented as prototypes. These SDXs are being used to conduct experiments and to demonstrate the potentials of SDXs. |
| 2526 | </li> |
| 2527 | <br> |
| 2528 | |
| 2529 | <li> |
| 2530 | <b>Mambretti, Joe and Chen, Jim and Yeh, Fei</b> |
2529 | | <li> |
2530 | | <b>Mambretti, Joe and Chen, Jim and Yeh, Fei</b> |
2531 | | , "Software-Defined Network Exchanges (SDXs): Architecture, services, capabilities, and foundation technologies." |
2532 | | Teletraffic Congress (ITC), 2014 26th International, IEEE, |
2533 | | 2014. |
2534 | | doi:10.1109/itc.2014.6932970. |
2535 | | <a href="http://dx.doi.org/10.1109/itc.2014.6932970">http://dx.doi.org/10.1109/itc.2014.6932970</a> |
2536 | | <br><br><b>Abstract: </b>Software Defined Networks (SDNs), primarily based on OpenFlow, are being deployed in single domain networks around the world. The popularity of SDNs has given rise to multiple considerations about designing, implementing, and operating Software-Defined Network Exchanges (SDXs), to enable SDNs to interconnect SDN islands and to extend SDNs across multiple domains. These goals can be accomplished only by developing new techniques that extend the single domain orientation of current SDN/OpenFlow approaches to include capabilities for multidomain control, including those for resource discovery, signaling, and dynamic provisioning. Several networking research communities have begun to investigate these concepts. Early architectural models of SDXs have been designed and implemented as prototypes. These SDXs are being used to conduct experiments and to demonstrate the potentials of SDXs. |
2537 | | </li> |
2538 | | <br> |
2539 | | |
| 3291 | </li> |
| 3292 | <br> |
| 3293 | |
| 3294 | |
| 3295 | |
| 3296 | <li> |
| 3297 | <b>Jourjon, Guillaume and Marquez-Barja, Johann M. and Rakotoarivelo, Thierry and Mikroyannidis, Alexander and Lampropoulos, Kostas and Denazis, Spyros and Tranoris, Christos and Pareit, Daan and Domingue, John and DaSilva, Luiz A. and Ott, Max</b> |
| 3298 | , "FORGE Toolkit: Leveraging Distributed Systems in eLearning Platforms." |
| 3299 | IEEE, |
| 3300 | 2015. |
| 3301 | doi:10.1109/tetc.2015.2511454. |
| 3302 | <a href="http://dx.doi.org/10.1109/tetc.2015.2511454">http://dx.doi.org/10.1109/tetc.2015.2511454</a> |
| 3303 | <br><br><b>Abstract: </b>While more and more services become virtualised and always accessible in our society, laboratories supporting Computer Science (CS) lectures have mainly remained offline and class-based. This apparent abnormality is due to several limiting factors, discussed in the literature, such as the high cost of deploying and maintaining computer network testbeds and the lack of standardisation for the presentation of eLearning platforms. In this paper, we present the FORGE toolkit, which leverages experimentation facilities currently deployed in international initiatives for the development of e-learning materials. Thus, we solve the institutional challenge mentioned in the ACM/IEEE 2013 CS curricula concerning the access and maintenance of specialised and heterogeneous hardware thanks to a seamless integration with the networking testbed community. Moreover, this project builds an ecosystem where teaching and educational materials, tools and experiments are available under open scheme and policies. We demonstrate how it already meets most of the requirements from the Network and Communication component of CS 2013 and some of the labs of the Cisco academy. Finally, we present experience reports illustrating the potential benefits of this framework based on first deployments in four post-graduate courses in prestigious institutions around the world. |
| 5694 | , "Software-Defined Network Exchanges (SDXs): Architecture, services, capabilities, and foundation technologies." |
| 5695 | Teletraffic Congress (ITC), 2014 26th International, IEEE, |
| 5696 | 2014. |
| 5697 | doi:10.1109/itc.2014.6932970. |
| 5698 | </li> |
| 5699 | <br> |
| 5700 | |
| 5701 | <li> |
| 5702 | <b>Mambretti, Joe and Chen, Jim and Yeh, Fei</b> |
5685 | | </li> |
5686 | | <br> |
5687 | | |
5688 | | <li> |
5689 | | <b>Mambretti, Joe and Chen, Jim and Yeh, Fei</b> |
5690 | | , "Software-Defined Network Exchanges (SDXs): Architecture, services, capabilities, and foundation technologies." |
5691 | | Teletraffic Congress (ITC), 2014 26th International, IEEE, |
5692 | | 2014. |
5693 | | doi:10.1109/itc.2014.6932970. |
| 6351 | <b>Jourjon, Guillaume and Marquez-Barja, Johann M. and Rakotoarivelo, Thierry and Mikroyannidis, Alexander and Lampropoulos, Kostas and Denazis, Spyros and Tranoris, Christos and Pareit, Daan and Domingue, John and DaSilva, Luiz A. and Ott, Max</b> |
| 6352 | , "FORGE Toolkit: Leveraging Distributed Systems in eLearning Platforms." |
| 6353 | IEEE, |
| 6354 | 2015. |
| 6355 | doi:10.1109/tetc.2015.2511454. |
| 6356 | </li> |
| 6357 | <br> |
| 6358 | |
| 6359 | |
| 6360 | |
| 6361 | <li> |