Abstract
In Wireless Body Area Networks (WBAN), the key factors to be considered for transmission of confidential data are security and privacy as it is mostly having applications in emergency medical response systems. The lack of security may lead to loss of data privacy resulting in an adversary to bring in bogus data or altering the legal ones. Hence in this study, a secure key management technique for WBAN is proposed. The proposed architecture consists of a set of WBANs connected to the master server via backend server using authentication channel. Initially, backend server and master server use a shared symmetric key. When a node wants to join a network, it forwards a request message protected by the Message Authentication Code (MAC) to the master server via the backend server. The master server verifies the MAC and generates message key and master key for the node and sends it to backend server. The backend server encrypts the message key with the master key and sends it to the node that initiates the joining process. After all nodes receive key information from the master server, the Base Server (BS) schedules a re-keying period to refresh the master key. By simulation results, it is shown that the proposed technique is more authenticated. The proposed approach offers data confidentiality and integrity in WBANs.
Highlights
The backend server relay the biometric information measured by the sensor node to the master server through the internet
The IEEE 802.15.4 specification uses Physical layer (PHY) options based on Direct Sequence Spread Spectrum (DSSS) which uses the frame structure for low-duty-cycle low power operation containing a 32-bit preamble frame length
A secure key management technique for Wireless Body Area Networks (WBAN) is proposed in this study
Summary
Zimmerman (1996) established the concept of WBAN which is otherwise defined as Wireless Personal Area Network (WPAN) (Li et al, 2010). WBAN is the network that permits the combination of smart, small scale, minimum power, aggressive/discreet sensor nodes which monitors body activities and neighboring environment. Every intelligent node in the network has potential to forward the information to the base station after processing to obtain the diagnosis and prescription (Ullah et al, 2009). The application of WBANs is concerned with medical field and it upholds consumer electronics applications concurrently (Khan et al, 2009). The features of WBAN are listed below (Li et al, 2010):
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