We study the issue of enhancing network infrastructure functions to support resilient, secure, flexible and efficient service provisioning.
GONE: A Relisient, DoS-Limiting Infrastructure Overlay Architecture
We propose an overlay network architecture by introducing a set of generic functions in network edges and end hosts. We conjecture that the network edge constitutes a major source of DoS, resilience and mobility issues to the network, and propose a new solution to this problem, namely the General Internet Signaling Transport (GIST) Overlay Networking Extension, or GONE. The basic idea of GONE is to create a half-permanent overlay mesh consisting of GONE-enabled edge routers, which employs capability-based DoS prevention and forwards end-to-end user traffic using the GIST messaging associations. It intends to offer a number of advantages for upper layer end-to-end applications, including intrinsic provisioning of resilience and DoS prevention in a dynamic and nomadic environment. See more details for the GONE concept in the paper appeared in NOSSDAV 2006.
Network Virtualization Peer-to-Peer Management and P2PSIP
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2008
Decoupling Congestion Control Using Traffic Aggregates and Middleboxes,
Niklas Neumann, Ralf Lübben, Mayutan Arumaithurai, and Xiaoming Fu, IEEE International Conference on Network Protocols (ICNP 2008), poster session, New Orleans, USA,
October 2008.
D-MORE: Dynamic Mesh-based Overlay Peer-to-Peer Infrastructure,
Jun Lei, Xiaoming Fu, and Dieter Hogrefe, Technical Report No. IFI-TB-2008-02, Institute of Computer Science, University of Goettingen, Goettingen, Germany,
ISSN 1611-1044, August 2008.
Implementation and Evaluation of the Peer-to-Peer-Protocol (P2PP) for P2PSIP,
Michael Cohrs, Master's thesis, No. ZFI-BM-2008-04, Zentrum fuer Informatik, Universitaet Goettingen,
ISSN 1612-6793, March 2008.
A Network Virtualisation Concept Based on Ambient Networks SATO System,
Martin Stiemerling, Xiaoming Fu, and Marcus Brunner, 1. GI/ITG Fachgespraech Virtualisierung, Paderborn, Germany, pages 33 - 36,
February 2008.
Probe-aided MulTCP: An Aggregate Congestion Control Mechanism,
Fang-Chun Kuo and Xiaoming Fu, ACM SIGCOMM Computer Communication Review, Vol. 38, No. 1, Pages 19-28,
ACM, ISSN 0146-4833, January 2008.
A Peer-to-Peer SIP System based on Service-Aware Transport Overlays,
Martin Stiemerling and Marcus Brunner, Praxis der Informationsverarbeitung und Kommunikation (PIK), Special Issue on Voice over IP, Volume 30, No. 4,
ISBN 978-3-598-01376-8, December 2007.
Peer-to-Peer SIP Implementation Report,
Martin Stiemerling and Marcus Brunner, Internet Engineering Task Force, Internet draft (draft-stiemerling-p2psip-impl-02), work in progress, Peer-to-Peer SIP (P2PSIP) Working Group,
November 2007.
Probe-Aided MulTCP: An Aggregate Congestion Control Mechanism,
Fang-Chun Kuo and Xiaoming Fu, Technical Report No. IFI-TB-2007-01, Institute of Computer Science, University of Goettingen, Goettingen, Germany,
ISSN 1611-1044, April 2007.
Prototyping and Testing of GONE - GIST Overlay Networking Extension,
Jan Demter, Bachelor's thesis, No. ZFI-BM-2006-37, Center for Computer Science, University of Goettingen, Germany,
ISSN 1612-6793, November 2006.
GONE: an Infrastructure Overlay for Resilient, DoS-Limiting Networking,
Xiaoming Fu and Jon Crowcroft, Proceedings of the 16th ACM International Workshop on Network and Operating Systems Support for Digital Audio and Video (NOSSDAV 2006), Newport, Rhode Island, USA,
ACM, May 2006.
