Changes between Version 20 and Version 21 of GEC22Agenda/EveningDemoSession


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Timestamp:
01/29/15 16:29:19 (5 years ago)
Author:
matta@bu.edu
Comment:

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  • GEC22Agenda/EveningDemoSession

    v20 v21  
    260260==== Demand-driven Network Management with ProtoRINA ====
    261261
    262 We demonstrate how video can be efficiently multicast to many clients on demand by dynamically creating a delivery tree using ProtoRINA, our prototype of the Recursive InterNetwork Architecture (RINA). Under RINA, multicast can be enabled through a secure communication container that is dynamically formed to support video transport either through application proxies or via relay IPC processes. The former represents application-level management, while the latter represents communication layer management, both forms are part of RINA’s repeating management structure. RINA supports demand-driven network management, where mechanisms (including registration, authentication, enrollment, addressing, etc.) are policy-instantiated to allow the dynamic formation of private communication layers in support of various requirements. This demo highlights RINA's inherent support for envisioned software-defined virtual networking scenarios.
    263 
    264 Participants:
     262We demonstrate how video can be efficiently multicast to many clients on demand by dynamically creating a delivery tree using ProtoRINA, our prototype of the Recursive !InterNetwork Architecture (RINA). Under RINA, multicast can be enabled through a secure communication container that is dynamically formed to support video transport either through application proxies or via relay IPC processes. The former represents application-level management, while the latter represents communication layer management, both forms are part of RINA’s repeating management structure. RINA supports demand-driven network management, where mechanisms (including registration, authentication, enrollment, addressing, etc.) are policy-instantiated to allow the dynamic formation of private communication layers in support of various requirements. This demo highlights RINA's inherent support for envisioned software-defined virtual networking scenarios.
     263
     264Participants:
     265  * Nabeel Akhtar, nabeel@bu.edu, Boston University
     266  * Yuefeng Wang, wyf@bu.edu, Boston University
    265267  * Ibrahim Matta, matta@bu.edu, Boston University
     268 
    266269
    267270==== SDX at SoX ====