Book ChapterDOI
The Great Plains Environment for Network Innovation (GpENI): A Programmable Testbed for Future Internet Architecture Research
James P. G. Sterbenz,James P. G. Sterbenz,Deep Medhi,Byrav Ramamurthy,Caterina Scoglio,David Hutchison,Bernhard Plattner,Tricha Anjali,Andrew Scott,Cort Buffington,Gregory E. Monaco,Don Gruenbacher,Rick McMullen,Justin P. Rohrer,John Sherrell,Pragatheeswaran Angu,Ramkumar Cherukuri,Haiyang Qian,Nidhi Tare +18 more
- pp 428-441
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The Great Plains Environment for Network Innovation – GpENI is an international programmable network testbed centered on a regional optical network in the Midwest US, providing flexible infrastructure across the entire protocol stack.Abstract:
The Great Plains Environment for Network Innovation – GpENI is an international programmable network testbed centered on a regional optical network in the Midwest US, providing flexible infrastructure across the entire protocol stack. The goal of GpENI is to build a collaborative research infrastructure enabling the community to conduct experiments in future Internet architecture. GpENI is funded in part by the US National Science Foundation GENI (Global Environments for Network Innovation) program and by the EU FIRE (Future Internet Research and Experimentation) Programme, and is affiliated with a project funded by the NSF FIND (Future Internet Design) Program.read more
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Journal ArticleDOI
Resilience and survivability in communication networks: Strategies, principles, and survey of disciplines
James P. G. Sterbenz,David Hutchison,Egemen K. Çetinkaya,Abdul Jabbar,Justin P. Rohrer,Marcus Schöller,Paul Smith +6 more
TL;DR: An architectural framework for resilience and survivability in communication networks is provided and a survey of the disciplines that resilience encompasses is provided, along with significant past failures of the network infrastructure.
Journal ArticleDOI
GENI: A federated testbed for innovative network experiments
Mark Berman,Jeffrey S. Chase,Lawrence H. Landweber,Akihiro Nakao,Maximilian Ott,Dipankar Raychaudhuri,Robert Ricci,Ivan Seskar +7 more
TL;DR: The concurrent deployment of these technologies on regional and national R&E backbones will result in a revolutionary new national-scale distributed architecture, bringing to the entire network the shared, deeply programmable environment that the cloud has brought to the datacenter.
Journal ArticleDOI
Evaluation of network resilience, survivability, and disruption tolerance: analysis, topology generation, simulation, and experimentation
James P. G. Sterbenz,Egemen K. Çetinkaya,Mahmood A. Hameed,Abdul Jabbar,Shi Qian,Justin P. Rohrer +5 more
TL;DR: A comprehensive methodology to evaluate network resilience using a combination of topology generation, analytical, simulation, and experimental emulation techniques with the goal of improving the resilience and survivability of the Future Internet.
Journal ArticleDOI
Modelling communication network challenges for Future Internet resilience, survivability, and disruption tolerance: a simulation-based approach
TL;DR: A framework to evaluate network dependability and performability in the face of challenges is presented and it is shown that the impact of network challenges depends on the duration, the number of network elements in a challenged area, and the importance of the nodes in a challenge area.
Proceedings ArticleDOI
Modelling and analysis of network resilience
TL;DR: This paper describes a comprehensive methodology to evaluate network resilience using a combination of analytical and simulation techniques with the goal of improving the resilience and survivability of the Future Internet.
References
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Proceedings ArticleDOI
KUAR: A Flexible Software-Defined Radio Development Platform
G.J. Minden,Joseph B. Evans,Leon S. Searl,Dan DePardo,Victor R. Petty,Rakesh Rajbanshi,Timothy R. Newman,Qi Chen,F. Weidling,J. Guffey,Dinesh Datla,B. Barker,M. Peck,B. Cordill,Alexander M. Wyglinski,Arvin Agah +15 more
TL;DR: The KUAR is presented, a portable, powerful, and flexible software-defined radio development platform called the Kansas University Agile Radio to enable advanced research in the areas of wireless radio networks, dynamic spectrum access, and cognitive radios.
Book Chapter
A flexible IP active networks architecture
Alex Galis,Bernhard Plattner,Jonathan M. Smith,Spyros Denazis,Eckhard Moeller,Hui Guo,Cornel Klein,Joan Serrat,Jan Laarhuis,George T. Karetsos,Chris Todd +10 more
TL;DR: The main concepts of the IST Project FAIN "Future Active IP Networks" are presented, a three-year collaborative research project, whose main task is to develop and validate an open, flexible, programmable and dependable network architecture based on a novel active node approach.
Postmodern Internetwork Architecture
TL;DR: This project aims to design, implement, and evaluate through daily use a minimalist internetwork layer and auxiliary functionality that anticipates tussles and allows them to be played out in policy space, as opposed to in the packet-forwarding path.
Book ChapterDOI
A Flexible IP Active Networks Architecture
Alex Galis,Bernhard Plattner,Jonathan M. Smith,Spyros Denazis,Eckhard Moeller,Hui Guo,Cornel Klein,Joan Serrat,Jan Laarhuis,George T. Karetsos,Chris Todd +10 more
TL;DR: The Future Active IP Networks (FAIN) as mentioned in this paper is a three-year collaborative research project, whose main task is to develop and validate an open, flexible, programmable and dependable network architecture based on a novel active node approach.