Enhancing security via stochastic routing

Abstract

Shortest path routing leaves connections at risk of interception and eavesdropping since the path over which data packets travel is fairly predictable and easy to determine. To improve routing security, we propose a proactive mechanism, which we call secure stochastic routing, that explores the existence of multiple routes and forces packets to take alternative paths probabilistically. We investigate game theoretic techniques to develop routing policies which make interception and eavesdropping maximally difficult. Through simulations, we validate our theoretical results and show how the resulting routing algorithms perform in terms of the security/delay/throughput trade-off. We observe that a beneficial side-effect of these algorithms is an increase in throughput, as they make use of multiple paths. The Internet was designed to use redundancy to enhance reliability. We suggest that, through stochastic methods, redundancy be used to increase security.