Secure sensor network communication protocols need to provide three basic properties: data secrecy, authentication, and replay protection. Secure sensor network link layer protocols such as TinySec [13] and ZigBee [28] enjoy significant attention in the community. However, TinySec achieves low energy consumption by reducing the level of security provided. In contrast, ZigBee enjoys high security, but suffers from high energy consumption.MiniSec is a secure network layer that obtains the best of both worlds: low energy consumption and high security. MiniSec has two operating modes, one tailored for single-source communication, and another tailored for multi-source broadcast communication. The latter does not require per-sender state for replay protection and thus scales to large networks. We present a publicly available implementation of MiniSec for the Telos platform, and experimental results demonstrate our low energy utilization.
ISBN 978-1-4244-7515-5International audienceAlthough high level simulation models are being increasingly used for digital electronic system validation, cycle accuracy is still required in some cases, such as hardware protocol validation or accurate power/energy estimation. Cycle-accurate simulation is however slow and acceleration approaches make the assumption of a single constant clock, which is not true anymore with the generalization of dynamic voltage and frequency scaling techniques. Fast cycle-accurate simulators supporting several clocks whose frequencies can change at run time are thus needed. This paper presents two algorithms we designed for this purpose and details their properties and implementations
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