Abstract
Body area network (BAN) is an emerging branch of wireless sensor networks for personalized applications in many fields, such as health monitoring. The services in BAN usually have a high requirement on security, especially for the medical diagnosis, which involves private information. With limitations of power and computation capabilities, one of the main challenges to ensure security in BAN is how to generate or distribute a shared key between nodes for lightweight symmetric cryptography. The current research almost exploits the randomness and distinctiveness (characteristics) of physiological signals to solve the key generation problem. However, it needs the help of additional hardware support and has the constraint on positions deployment, to acquire vital signals, which will bring the high cost and hardness to implementation of real system. To avoid the above problems, this paper presents a novel key generation scheme and a key distribution protocol, both of which are only based on wireless modules equipped on sensors. By exploiting the high correlation of received signal strength index (RSSI) between peer-to-peer communications, our scheme can provide a shared symmetric cryptographic key under the presence of an eavesdropper. We conduct experiments on the real Telosb nodes, and the results demonstrate that our proposed methods have a good performance on security.
Highlights
With the aged tendency of global population, people pay more attention to the healthcare requirements
We propose wavelet-transform trend-based key extraction (WTKE) scheme and fuzzy vault based key distribution (FVKD) protocol, which use the received signal strength (RSS) variations for a pairwise key agreement to secure body area network (BAN) communications
This paper presents two main research findings: a key extraction scheme and a secure key distribution protocol for BAN
Summary
With the aged tendency of global population, people pay more attention to the healthcare requirements. The idea using physiological signals for securing intersensor communications was first introduced by Cherukuri et al [8] Motivated by this initial idea, [9,10,11,12] exploited interpulse interval (IPI) to generate cryptographic keys. Exiting channel property based key-sharing solutions are established to extract secret keys at a high rate with high bit mismatch rate or generate secret keys at a low rate with acceptable bit mismatch rate The former needs reconciliation phase to exchange the mismatch information, which consumes resources. We propose wavelet-transform trend-based key extraction (WTKE) scheme and fuzzy vault based key distribution (FVKD) protocol, which use the received signal strength (RSS) variations for a pairwise key agreement to secure BAN communications.
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