A hash‐based distributed mapping control scheme in mobile locator‐identifier separation protocol networks

Abstract

SummaryIn the locator‐identifier separation protocol (LISP), the existing mapping control scheme is based on a centralized approach, in which a map server is used as a mobility anchor for mobile hosts. However, such a centralized scheme has some limitations that include traffic overhead at the central map server, service degradation by a single point of failure, and large data transmission delay. In this article, we propose a new hash‐based distributed mapping control scheme of endpoint identifier (EID) and local locator in the LISP‐based mobile networks. In the proposed scheme, each access router in the mobile network has a distributed local map server. For a mobile host, a distributed local map server is designated to manage the associated EID‐local locator mapping by using a hash function. For roaming support, each gateway has a distributed global map server, which maintains visiting EID‐locator register. From the numerical results, we see that the proposed scheme can reduce the amount of control traffic at the map server and total signaling delay compared to the existing mapping control schemes.