News
A scalable blockchain-based framework for efficient IoT data management using lightweight consensus
Maftei, A.A., Lavric, A., Petrariu, A.I. & Popa, V. Mass data storage solution for IoT devices using blockchain technologies. Sensors 23(3), 1570 (2023).
Google Scholar
A Holst. IoT Connected Devices Around the World 2019-2030— Statista. https://www.statista.com/statistics/1183457/iot-connected-devices-worldwide/ Accessed October 21, 2022.
Selvarajan, S. & Mouratidis, H. A quantum trust and consultative transaction-based blockchain cybersecurity model for healthcare systems. Ski. Representative. 13(1), 7107 (2023).
Google Scholar
Hossein Shafagh, Lukas Burkhalter, Anwar Hithnawi and Simon Duquennoy. Towards Verifiable Blockchain-Based IoT Data Storage and Sharing. In Proceedings of the 2017 on Cloud Computing Security Workshop, CCSW ’17, pages 45–50, New York, NY, USA, 2017. Association for Computing Machinery.
Vinothkumar, T., Sivaraju, S.S., Thangavelu, A. & Srithar, S. A reliable and energy-efficient data collection infrastructure using the Internet of Things and smart grids. Automatika 64(4), 720–732 (2023).
Google Scholar
Ul Haque, E. et al. Pakistan’s cyber forensics infrastructure: An analysis of the cyber threat landscape and preparedness. IEEE Access 1140049–40063 (2023).
Google Scholar
Novo, O. Blockchain meets IoT: An architecture for scalable access management in the IoT. Internet Things IEEE J. 5(2), 1184–1195 (2018).
Google Scholar
Khan, A. A., Laghari, A. A., Li, P., Dootio, M. A. & Karim, S. The collaborative role of blockchain, artificial intelligence and the industrial Internet of Things in the digitalization of small and medium-sized enterprises. Ski. Representative. 13(1), 1656 (2023).
Google Scholar
Kutub, T., Al-Sakib, K.P. & Sadia, I. Internet of Things (IoT). In Emerging ICT Technologies and Cybersecurity: From Artificial Intelligence and Machine Learning to Other Futuristic Technologies 165–183 (Springer, 2023).
Google Scholar
Kunhahamed, PK & Rajak, S. Application of blockchain in mining 4.0. In Blockchain and its applications in Industry 4.0 (eds. Suyel, N. and Kemal, A.) 123–137 (Springer, Singapore, 2023).
Google Scholar
Jayabal, C.P., Sathia, P.R.K., and Bhama.,. Performance Analysis on Proof of Work Based on Diversity Mining in the Blockchain of a Bifold Consortium for Internet of Things Consensus. I agree. Calculate. Practice. Exp. https://doi.org/10.1002/cpe.6285 (2021).
Google Scholar
Fan, X., Niu, B. & Liu, Z. Scalable blockchain storage systems: Research advances and patterns. Informatics 104(6), 1497–1524 (2022).
Google Scholar
Satamraju, KP & Malarkodi, B. Proof of concept for scalable integration of Internet of Things and blockchain in healthcare. Sensors 20(5), 1389 (2020).
Google Scholar
Bapatla, A.K., Puthal, D., Mohanty, S.P., Yanambaka, VP & Kougianos, E. Easychain: An IoT-enabled blockchain for robust and energy-efficient authentication. In front of. Blockchain 61194883 (2023).
Google Scholar
Puthal, D., Mohanty, S.P., Nanda, P., Kougianos, E., Das, G. Proof of authentication for scalable blockchain in resource-constrained distributed systems. In 2019 IEEE International Conference on Consumer Electronics (ICCE)pages 1–5, (2019)
Yang, F. et al. Delegated Proof of Stake with Downgrade: A secure and efficient blockchain consensus algorithm with downgrade mechanism. IEEE Access 7118541–118555 (2019).
Google Scholar
Nakamoto, S. Bitcoin: a peer-to-peer electronic cash system. Decentralized Business Review 21260 (2008)
Jouhari, M., Saeed, N., Alouini, M.-S. & Amhoud, E.M. A survey of scalable resources for large-scale IoT: Recent advances, potential, and challenges. IEEE Surviving Communion Legal guardian. 25(3), 1–4 (2023).
Google Scholar
Akkaoui, R., Hei, X. & Cheng, W. Edgemedichain: a blockchain-based hybrid framework for healthcare data exchange. IEEE Access 8113467–113486 (2020).
Google Scholar
Kummar, S., Bhushan, B. & Bhatia, S. Blockchain-based big data solutions for Internet of Things (IoT) and smart cities. In New trends and applications in the Internet of Things (IoT) and Big Data analytics (eds. Sharma, R. and Sharma, D.) 225–253 (Springer International Publishing, Cham, 2022). https://doi.org/10.1007/978-3-030-99329-0_15.
Google Scholar
Grigg. I. EOS: an introduction. [Online] Available, 2017. https://eos.io/documents/EOS_An_Introduction.pdf. Logged in on 03-November-2022.
Pradhan, NR & Singh, AP Smart Contracts for Automated Control Systems in Blockchain-Based Smart Cities. J. Environmental intellect. Smart environment. 13(3), 253–267 (2021).
Google Scholar
Hilbig, A., Lehmann, D., Pradel, M., An empirical study of real-world webassembly binaries: security, languages, use cases. In Proceedings of the 2021 web conference2696–2708, (2021)
Pradhan, NR, Singh, AP & VK, Blockchain Enabled Transparent and Traceable Transport System for Blood Bank. In Advances in VLSI, communication and signal processing (edited by Harvey, D. et al.) 313–324 (Springer, Singapore, 2021).
Google Scholar
Naik, M. et al. Tokengreen: A versatile NFT framework for peer-to-peer energy trading and EV asset ownership. Internet Things IEEE J. https://doi.org/10.1109/JIOT.2023.3340155 (2024).
Google Scholar
Shahid, A. R., Pissinou, N., Staier, C., Kwan, R. Sensor-chain: a scalable and lightweight blockchain framework for the Internet of Things. In 2019 International Conference on Internet of Things (iThings) and IEEE Green Computing and Communications (GreenCom) and IEEE Cyber, Physical and Social Computing (CPSCom) and IEEE Smart Data (SmartData)1154–1161, (2019)
Battah, A. A., Iraqi, Y. & Damiani, E. A trust and reputation system for IoT service interactions. IEEE Trans. Managed Serv. Network 19(3), 2987–3005 (2022).
Google Scholar
Khan, S., Lee, W.-K., Majeed, A. & Hwang, S. O. Blockchain meets lightweight cryptography. IEEE potentials 41(6), 38–42 (2022).
Google Scholar
Huynh, T.T., Nguyen, T.D., Hoang, T., Tran, L. & Choi, D. A guaranteed reliable solution for data storage and sharing. IEEE Access 9108318–108328 (2021).
Google Scholar
Dener, M. & Orman, A. Bbap-wsn: a new blockchain-based authentication protocol for wireless sensor networks. Applied sciences 13(3), 1526 (2023).
Google Scholar
Kaur, M., Gupta, S., Kumar, D., Raboaca, M.S., Goyal, S.B., Verma, C. IPFS: An Off-Chain Storage Solution for Blockchain. In Proceedings of the International Conference on Recent Innovations in Computing: ICRIC 2022, Volume 1, 513–525. (Springer) 2023
Zhang, Q. & Zhao, Z. Distributed storage scheme for voice data encryption based on blockchain and IPFS. The Journal of Supercomputing 79(1), 897–923 (2023).
Google Scholar
Erman, D., Ilie, D. & Popescu, A. Bittorrent session characteristics and models: extended version. In Traffic and performance engineering for heterogeneous networks (ed. Kouvatsos, DD) 61–84 (River Publishers, UK, 2022).
Google Scholar
D. Spinellis, “Git,” in IEEE Software, vol. 29, no. 3, pp. 100–101, May-June 2012, doi: https://doi.org/10.1109/MS.2012.61
Zheng, W., Zheng, Z., Hong-Ning Dai, Xu. & Chen and Peilin Zheng.,. Xblock-EOS: mining and exploring blockchain data from eosium. Information processing and management 58(3), 102477 (2021).
Google Scholar
Yousuf, A.M., Rochester, E.M., Ousat, B., Ghaderi, M. Throughput, coverage and scalability of LoRa LPWAN for Internet of Things. In 26th IEEE/ACM International Symposium on Quality of Service (IWQoS) 2018 pages 1–10 (2018)