This work was partly published in the 2010 Third IEEE International Symposium on Trust, Security and Privacy for Emerging Applications (TSP-10), held in Bradford, UK . The authors are with the Instituto de Computação, Universidade Federal Fluminense, Niterói, Rio de Janeiro, Brazil (E-mail: [kazienko, iribeiro, igor, celio]@ic.uff.br).
SENSORLock: a lightweight key management scheme for wireless sensor networks†
Version of Record online: 26 FEB 2013
Copyright © 2013 John Wiley & Sons, Ltd.
Security and Communication Networks
Volume 6, Issue 10, pages 1198–1210, October 2013
How to Cite
Kazienko, J. F., Ribeiro, I. G., Moraes, I. M. and Albuquerque, C. V. N. (2013), SENSORLock: a lightweight key management scheme for wireless sensor networks. Security Comm. Networks, 6: 1198–1210. doi: 10.1002/sec.686
- Issue online: 23 SEP 2013
- Version of Record online: 26 FEB 2013
- key storage;
- key distribution;
- practical experiments;
Security in wireless sensor networks demands an efficient key management scheme. As sensors typically operate unattended, it becomes quite important to ensure security to cryptographic keys stored in their memories. In this scenario, the development of lightweight encryption mechanisms is a challenge because of sensor-constrained resources. In this work, we present a mechanism tailored to sensor networks called SENSORLock applying it to a specific case. Our main contribution is to propose, analyze, and demonstrate the feasibility of SENSORLock for secure symmetric key distribution solving the stored key exposure problem. Analytical results demonstrate that this approach increases the system's security against the tampering of sensor nodes. Additionally, the mechanism is evaluated using simulation and practical experiments, using the TinyOS platform. Simulation results reveal that this scheme introduces very low processing overhead, in the order of nanoseconds, and an estimated power consumption quite similar to existing approaches. Besides, practical experiments indicate that the scheme can be deployed by off-the-shelf sensors, such as MicaZ and TelosB. Copyright © 2013 John Wiley & Sons, Ltd.