A secure and efficient batch binding update scheme for route optimization of nested NEtwork Mobility (NEMO) in VANETs

摘要

NEtwork Mobility (NEMO) is designed to efficiently deal with the mobility of a set of mobile nodes using Mobile Routers (MRs). NEMO is extremely suitable for Vehicle Ad hoc NETworks (VANETs) due to its highly mobile nature. However, NEMO also suffers from some limitations such as inefficient routing paths and multiple tunnels. To solve the problem of inefficient routing paths, there is a growing need for better route optimization. To achieve route optimization in NEMO, when a mobile router moves into a new foreign network, the MR or the mobile nodes within this MR are required to submit binding update messages to the correspondent nodes connecting with the aforementioned mobile nodes. As a result, a popular correspondent node may simultaneously receive a great number of binding update messages within a short period of time. This problem is quickly exacerbated in a nested NEMO environment. In addition, the security issues for route optimization have been widely discussed. Most of the improved schemes adopt traditional signatures to solve the security problems for route optimization, which often leads to heavy computational costs when a large number of signatures need to be verified. In this paper, we propose a Batch Binding Update Scheme (BBUS) to verify multiple signatures at the same time. By the adoption of elliptic curve cryptography, both the computational and communication costs are significantly reduced.