Litcius/Paper detail

A Highly Secure IoT Firmware Update Mechanism Using Blockchain

Woei-Jiunn Tsaur, Jen-Chun Chang, Chin‐Ling Chen

2022Sensors29 citationsDOIOpen Access PDF

Abstract

Internet of Things (IoT) device security is one of the crucial topics in the field of information security. IoT devices are often protected securely through firmware update. Traditional update methods have their shortcomings, such as bandwidth limitation and being attackers' easy targets. Although many scholars proposed a variety of methods that are based on the blockchain technology to update the firmware, there are still demerits existing in their schemes, including large storage space and centralized stored firmware. In summary, this research proposes a highly secure and efficient protection mechanism that is based on the blockchain technology to improve the above disadvantages. Therefore, this study can reduce the need of storage space and improve system security. The proposed system has good performance in some events, including firmware integrity, security of IoT device connection, system security, and device anonymity. Furthermore, we confirm the high security and practical feasibility of the proposed system by comparing with the existing methods.

Topics & Concepts

FirmwareComputer scienceBlockchainComputer securityInternet of ThingsMicrocodeField (mathematics)Variety (cybernetics)Embedded systemOperating systemMathematicsArtificial intelligencePure mathematicsBlockchain Technology Applications and SecurityIoT and Edge/Fog ComputingAdvanced Malware Detection Techniques