IPv4 address allocation and the BGP routing table evolution
ACM SIGCOMM Computer Communication Review
An overview of the OMNeT++ simulation environment
Proceedings of the 1st international conference on Simulation tools and techniques for communications, networks and systems & workshops
FIRMS: a mapping system for future internet routing
IEEE Journal on Selected Areas in Communications - Special issue title on scaling the internet routing system: an interim report
NAT traversal for LISP mobile node
Proceedings of the Re-Architecting the Internet Workshop
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The Locator/Identifier Separation Protocol (LISP) is a new naming and addressing architecture which is currently standardized in the IETF and which is deemed to improve the scalability and flexibility of the current routing architecture. LISP mobile node (LISP-MN) is an extension to the basic LISP architecture and enables mobile nodes to roam into LISP and non-LISP domains. The basic LISP architecture is currently deployed in a beta-network which can be used to test the protocol behavior on a smaller scale. However, a realistic simulation model for the LISP architecture and its various extensions is still missing. Such a simulation model could be used by researchers to quickly test new extensions on a larger scale for different load and network scenarios. In this paper, we describe the implementation of our model of the LISP architecture and its various extensions in the INET framework for OMNeT++. We present performance results to show the correctness of our model. As a first application, we used the simulation model to assess proposed improvements to LISP-MN and to verify our proposed NAT traversal mechanism for LISP-MN.