Evaluating the benefits of the locator/identifier separation
Proceedings of 2nd ACM/IEEE international workshop on Mobility in the evolving internet architecture
Six/one router: a scalable and backwards compatible solution for provider-independent addressing
Proceedings of the 3rd international workshop on Mobility in the evolving internet architecture
Managing interdomain traffic in Latin America: a new perspective based on LISP
IEEE Communications Magazine
Modeling BGP table fluctuations
ITC20'07 Proceedings of the 20th international teletraffic conference on Managing traffic performance in converged networks
A survey and taxonomy of ID/Locator Split Architectures
Computer Networks: The International Journal of Computer and Telecommunications Networking
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Next Generation Internet points out the challenge of addressing "things" on both a network with (wired) and without (wireless) infrastructure. In this scenario, new efficient and scalable addressing and routing schemes must be sought, since currently proposed solutions can hardly manage current scalability issues on the current global Internet routing table due to for example multihoming practices. One of the most relevant proposals for an addressing scheme is the Locator Identifier Separation Protocol (LISP) that focuses its key advantage on the fact that it does not follow a disruptive approach. Nevertheless, LISP has some drawbacks especially in terms of reachability in the border routers. In face of this, in this paper we propose a protocol so-called LISP Redundancy Protocol (LRP), which provides an interesting approach for managing the reachability and reliability issues common on a LISP architecture, such as those motivated by an inter-domain link failure.