Provenance and authentication of oracle sensor data with block chain lightweight wireless network authentication scheme for constrained oracle sensors

Abstract

With the significant increase in the dependence of contextual data from constrained IoT, the blockchain has been proposed as a possible solution to address growing concerns from organizations. To address this, the Lightweight Blockchain Authentication for Constrained Sensors (LBACS) scheme was proposed and evaluated using quantitative and qualitative methods. LBACS was designed with constrained Wireless Sensor Networks (WSN) in mind and independent of a blockchain implementation. It asserts the authentication and provenance of constrained IoT on the blockchain utilizing a multi-signature approach facilitated by symmetric and asymmetric methods and sufficient considerations for key and certificate registry management. The metrics, threat assessment and comparison to existing WSN authentication schemes conducted asserted the pragmatic use of LBACS to provide authentication, blockchain provenance, integrity, auditable, revocation, weak backward and forward secrecy and universal forgeability. The research has several implications for the ubiquitous use of IoT and growing interest in the blockchain.