Performance evaluation of a new route optimization technique for mobile IP

TL;DR

This paper introduces a hierarchical tunneling route optimization technique for Mobile IP that significantly reduces delay, packet loss, and registration time during handoffs, outperforming existing methods in various mobility scenarios.

Contribution

It proposes a novel hierarchical tunneling approach to improve Mobile IP performance during handoffs, addressing the triangle routing problem effectively.

Findings

Reduces packet delay during handoffs

Lowers packet loss rates compared to existing methods

Decreases registration time in mobility scenarios

Abstract

Mobile ip (mip) is an internet protocol that allows mobile nodes to have continuous network connectivity to the internet without changing their ip addresses while moving to other networks. The packets sent from correspondent node (cn) to a mobile node (mn) go first through the mobile node's home agent (ha), then the ha tunnels them to the mn's foreign network. One of the main problems in the original mip is the triangle routing problem. Triangle routing problem appears when the indirect path between cn and mn through the ha is longer than the direct path. This paper proposes a new technique to improve the performance of the original mip during the handoff. The proposed technique reduces the delay, the packet loss and the registration time for all the packets transferred between the cn and the mn. In this technique, tunneling occurs at two levels above the ha in a hierarchical network. To show the effectiveness of the proposed technique, it is compared with the original mip and another technique for solving the same problem in which tunneling occurs at one level above the ha. Simulation results presented in this paper are based on the ns2 mobility software on linux platform. The simulations results show that our proposed technique achieves better performance than the others, considering the packet delay, the packet losses during handoffs and the registration time, in different scenarios for the location of the mn with respect to the ha and fas.