Litcius/Paper detail

CBCIoT: A Consensus Algorithm for Blockchain-Based IoT Applications

Moin Uddin, Muhammad Muzammal, Muhammad Khurram Hameed, Ibrahim Tariq Javed, Bandar Alamri, Noël Crespi

2021Applied Sciences25 citationsDOIOpen Access PDF

Abstract

Internet of things is widely used in the current era to collect data from sensors and perform specific tasks through processing according to the requirements. The data collected can be sent to a blockchain network to create secure and tamper-resistant records of transactions. The combination of blockchain with IoT has huge potential as it can provide decentralized computation, storage, and exchange for IoT data. However, IoT applications require a low-latency consensus mechanism due to its constraints. In this paper, CBCIoT, a consensus algorithm for blockchain-based IoT applications, is proposed. The primary purpose of this algorithm is to improve scalability in terms of validation and verification rate. The algorithm is developed to be compatible with IoT devices where a slight delay is acceptable. The simulation results show the proposed algorithm’s efficiency in terms of block generation time and transactions per second.

Topics & Concepts

BlockchainComputer scienceScalabilityInternet of ThingsConsensus algorithmDistributed computingBlock (permutation group theory)Computer networkAlgorithmComputer securityDatabaseGeometryMathematicsBlockchain Technology Applications and SecurityIoT and Edge/Fog ComputingRetinal Imaging and Analysis