Chain of Things (CoT): A Blockchain-based Framework for Securing Internet of Things Applications

M. Younan, E. H. Houssein, M. Elhoseny, and A. A. Ali, "Challenges and recommended technologies for the industrial internet of things: A comprehensive review," Measurement, vol. 151, p. 107198, 2020..

[2]

O. Vermesan, A. Bröring, E. Tragos, M. Serrano, D. Bacciu, S. Chessa, C. Gallicchio, A. Micheli, M. Dragone, A. Saffiotti and others, "Internet of robotic things–converging sensing/actuating, hyperconnectivity, artificial intelligence and IoT platforms," in Cognitive hyperconnected digital transformation, River Publishers, 2022, p. 97–155.

[3]

M. Younan, M. Elhoseny, A. E.-m. A. Ali, and E. H. Houssein, "Data reduction model for balancing indexing and securing resources in the internet of things applications," IEEE Internet of Things Journal, 2020. https://doi.org/10.1109/JIOT.2020.3035248.

[4]

R. S. Jha and P. R. Sahoo, "Internet of things (IoT)–enabler for connecting world," in ICT for competitive strategies, CRC Press, 2020, p. 1–7.

[5]

A. Uzoka, E. Cadet and P. U. Ojukwu, "The role of telecommunications in enabling Internet of Things (IoT) connectivity and applications," Comprehensive Research and Reviews in Science and Technology, vol. 2, p. 055–073, 2024.

[6]

W. Villegas-Ch, J. Garcı́a-Ortiz and S. Sánchez-Viteri, "Towards Intelligent Monitoring in IoT: AI Applications for Real-Time Analysis and Prediction," IEEE Access, 2024.

[7]

P. Deivendran, S. Ilaiyaraja, S. Selvakanmani and K. S. Raghuram, "Scalability and security requirements for the Internet of Things architecture," in Artificial Intelligence for Internet of Things, CRC Press, 2022, p. 109–147.

[8]

H. Chegini, R. K. Naha, A. Mahanti and P. Thulasiraman, "Process automation in an IoT–fog–cloud ecosystem: A survey and taxonomy," IoT, vol. 2, p. 92–118, 2021.

[9]

M. Younan, S. Khattab, and R. Bahgat, "From the wireless sensor networks (wsns) to the web of things (wot): an overview," J. Intell. Syst. Internet Things, vol. 4, no. 2, pp. 56–68, 2021..

[10]

C. Li, J. Wang, S. Wang and Y. Zhang, "A review of IoT applications in healthcare," Neurocomputing, vol. 565, p. 127017, 2024.

[11]

E.H. Houssein, M. A. Othman, W. M. Mohamed, and M. Younan, "Internet of Things in Smart Cities: Comprehensive Review, Open Issues and Challenges," IEEE INTERNET OF THINGS JOURNAL, pp. 1-12, 2024.

[12]

M. E. E. Alahi, A. Sukkuea, F. W. Tina, A. Nag, W. Kurdthongmee, K. Suwannarat and S. C. Mukhopadhyay, "Integration of IoT-enabled technologies and artificial intelligence (AI) for smart city scenario: recent advancements and future trends," Sensors, vol. 23, p. 5206, 2023.

[13]

C. Liang and T. Shah, "IoT in agriculture: The future of precision monitoring and data-driven farming," Eigenpub Review of Science and Technology, vol. 7, p. 85–104, 2023.

[14]

G. Kiradoo, "The prominence of IoT in enhancing business success in the context of industry 4.0," Recent Progress in Science and Technology, vol. 6, p. 188–204, 2023.

[15]

C. Stolojescu-Crisan, C. Crisan and B.-P. Butunoi, "An IoT-based smart home automation system," Sensors, vol. 21, p. 3784, 2021.

[16]

A. N. Lone, S. Mustajab and M. Alam, "A comprehensive study on cybersecurity challenges and opportunities in the IoT world," Security and Privacy, vol. 6, p. e318, 2023.

[17]

V. Demertzi, S. Demertzis and K. Demertzis, "An Overview of Privacy Dimensions on the Industrial Internet of Things (IIoT)," Algorithms, vol. 16, p. 378, 2023.

[18]

P. Kumari and A. K. Jain, "A comprehensive study of DDoS attacks over IoT network and their countermeasures," Computers & Security, vol. 127, p. 103096, 2023.

[19]

O. I. Abiodun, E. O. Abiodun, M. Alawida, R. S. Alkhawaldeh and H. Arshad, "A review on the security of the internet of things: Challenges and solutions," Wireless Personal Communications, vol. 119, p. 2603–2637, 2021.

[20]

S. Dong, K. Abbas, M. Li and J. Kamruzzaman, "Blockchain technology and application: an overview," PeerJ Computer Science, vol. 9, p. e1705, 2023.

[21]

V. Ali, A. A. Norman and S. R. B. Azzuhri, "Characteristics of blockchain and its relationship with trust," Ieee Access, vol. 11, p. 15364–15374, 2023.

[22]

D. P. Oyinloye, J. S. Teh, N. Jamil and M. Alawida, "Blockchain consensus: An overview of alternative protocols," Symmetry, vol. 13, p. 1363, 2021.

[23]

M. Younan, M. Elhoseny, A. A. Ali, and E. H. Houssein, "Quantum chain of things (qcot): A new paradigm for integrating quantum computing, blockchain, and internet of things," in 2021 17th International Computer Engineering Conference (ICENCO). IEEE, 2021, pp. 101–106.

[24]

A. Al Sadawi, M. S. Hassan and M. Ndiaye, "A survey on the integration of blockchain with IoT to enhance performance and eliminate challenges," IEEe Access, vol. 9, p. 54478–54497, 2021.

[25]

G. R. Mounika and N. V. Lakshmi, "Blockchain Applications in Cybersecurity: Strengthening Data Integrity and Authentication," Library Progress International, vol. 44, p. 16624–16633, 2024.

[26]

M. R. Hasan, A. Alazab, S. B. Joy, M. N. Uddin, M. A. Uddin, A. Khraisat, I. Gondal, W. F. Urmi and M. A. Talukder, "Smart contract-based access control framework for internet of things devices," Computers, vol. 12, p. 240, 2023.

[27]

M. Qi, Z. Wang, Q.-L. Han, J. Zhang, S. Chen and Y. Xiang, "Privacy protection for blockchain-based healthcare IoT systems: A survey," IEEE/CAA Journal of Automatica Sinica, 2022.

[28]

A. R. Kairaldeen, N. F. Abdullah, A. Abu-Samah and R. Nordin, "Data integrity time optimization of a blockchain IoT smart home network using different consensus and hash algorithms," Wireless Communications and Mobile Computing, vol. 2021, p. 4401809, 2021.

[29]

A. P. Delladetsimas, S. Papangelou, E. Iosif and G. Giaglis, "Integrating Blockchains with the IoT: A Review of Architectures and Marine Use Cases," Computers, vol. 13, p. 329, 2024.

[30]

H. Pourrahmani, A. Yavarinasab, A. M. H. Monazzah and others, "A review of the security vulnerabilities and countermeasures in the Internet of Things solutions: A bright future for the Blockchain," Internet of Things, vol. 23, p. 100888, 2023.

[31]

A. K. Al Hwaitat, M. A. Almaiah, A. Ali, S. Al-Otaibi, R. Shishakly, A. Lutfi and M. Alrawad, "A new blockchain-based authentication framework for secure IoT networks," Electronics, vol. 12, p. 3618, 2023.

[32]

A. A. Aliyu and J. Liu, "Blockchain-Based Smart Farm Security Framework for the Internet of Things," Sensors, vol. 23, p. 7992, 2023.

[33]

M. Wazid, B. Bera, A. Mitra, A. K. Das and R. Ali, "Private blockchain-envisioned security framework for AI-enabled IoT-based drone-aided healthcare services," in Proceedings of the 2nd ACM MobiCom workshop on drone assisted wireless communications for 5G and beyond, 2020.

[34]

G. Rathee, F. Ahmad, R. Sandhu, C. A. Kerrache and M. A. Azad, "On the design and implementation of a secure blockchain-based hybrid framework for Industrial Internet-of-Things," Information Processing & Management, vol. 58, p. 102526, 2021.

[35]

P. Kumar, R. Kumar, G. Srivastava, G. P. Gupta, R. Tripathi, T. R. Gadekallu and N. N. Xiong, "PPSF: A privacy-preserving and secure framework using blockchain-based machine-learning for IoT-driven smart cities," IEEE Transactions on Network Science and Engineering, vol. 8, p. 2326–2341, 2021.

[36]

A. Y. B. Ahmad, N. Verma, N. Sarhan, E. M. Awwad, A. Arora and V. O. Nyangaresi, "An IoT and Blockchain-Based Secure and Transparent Supply Chain Management Framework in Smart Cities Using Optimal Queue Model," IEEE Access, 2024.

[37]

M. A. Al Ghamdi, "An optimized and secure energy-efficient blockchain-based framework in IoT," IEEE Access, vol. 10, p. 133682–133697, 2022.

[38]

A. Sharma, S. Kaur and M. Singh, "A secure blockchain framework for the internet of medical things," Transactions on Emerging Telecommunications Technologies, vol. 35, p. e4917, 2024.

[39]

S. Rani, H. Babbar, G. Srivastava, T. R. Gadekallu and G. Dhiman, "Security framework for internet-of-things-based software-defined networks using blockchain," IEEE Internet of Things Journal, vol. 10, p. 6074–6081, 2022.

[40]

U. Satapathy, B. K. Mohanta, S. S. Panda, S. Sobhanayak and D. Jena, "A secure framework for communication in internet of things application using hyperledger based blockchain," in 2019 10th international conference on computing, communication and networking technologies (ICCCNT), 2019.

[41]

T. Veeramakali, R. Siva, B. Sivakumar, P. C. Senthil Mahesh and N. Krishnaraj, "An intelligent internet of things-based secure healthcare framework using blockchain technology with an optimal deep learning model," The Journal of Supercomputing, vol. 77, p. 9576–9596, 2021.

[42]

A. Shankar and C. Maple, "Securing the Internet of Things-enabled smart city infrastructure using a hybrid framework," Computer Communications, vol. 205, p. 127–135, 2023.

[43]

A. Padma and M. Ramaiah, "Blockchain based an efficient and secure privacy preserved framework for smart cities," IEEE Access, 2024.

[44]

T. Baker, M. Asim, H. Samwini, N. Shamim, M. M. Alani and R. Buyya, "A blockchain-based Fog-oriented lightweight framework for smart public vehicular transportation systems," Computer Networks, vol. 203, p. 108676, 2022.

[45]

M. P. Caro, M. S. Ali, M. Vecchio and R. Giaffreda, "Blockchain-based traceability in Agri-Food supply chain management: A practical implementation," in 2018 IoT Vertical and Topical Summit on Agriculture-Tuscany (IOT Tuscany), 2018.

[46]

W.-L. Chen, Y.-B. Lin, Y.-W. Lin, R. Chen, J.-K. Liao, F.-L. Ng, Y.-Y. Chan, Y.-C. Liu, C.-C. Wang, C.-H. Chiu and others, "AgriTalk: IoT for precision soil farming of turmeric cultivation," IEEE Internet of Things Journal, vol. 6, p. 5209–5223, 2019.

[47]

M. Rehman, N. Javaid, M. Awais, M. Imran and N. Naseer, "Cloud based secure service providing for IoTs using blockchain," in 2019 IEEE Global Communications Conference (GLOBECOM), 2019.

[48]

S. Venkatraman and S. Parvin, "Developing an IoT identity management system using blockchain," Systems, vol. 10, p. 39, 2022.

[49]

J. O. Gidiagba, N. K. Nwaobia, P. W. Biu, C. A. Ezeigweneme and A. A. Umoh, "Review on the evolution and impact of iot-driven predictive maintenance: assessing advancements, their role in enhancing system longevity, and sustainable operations in both mechanical and electrical realms," Computer Science & IT Research Journal, vol. 5, p. 166–189, 2024.

[50]

A. R. Anarbayevich, "EXPLORING THE PRACTICAL APPLICATIONS OF IoT TECHNOLOGIES," International Journal of Advance Scientific Research, vol. 4, p. 88–100, 2024.

[51]

J. Li, A. Maiti and J. Fei, "Features and Scope of Regulatory Technologies: Challenges and Opportunities with Industrial Internet of Things," Future Internet, vol. 15, p. 256, 2023.

[52]

R. Mishra, B. K. R. Naik, R. D. Raut and M. Kumar, "Internet of Things (IoT) adoption challenges in renewable energy: A case study from a developing economy," Journal of Cleaner Production, vol. 371, p. 133595, 2022.

[53]

S. S. Albouq, A. A. Abi Sen, N. Almashf, M. Yamin, A. Alshanqiti and N. M. Bahbouh, "A survey of interoperability challenges and solutions for dealing with them in IoT environment," IEEE Access, vol. 10, p. 36416–36428, 2022.

[54]

A. Alrehaili, A. Namoun and A. Tufail, "A comparative analysis of scalability issues within blockchain-based solutions in the internet of things," International Journal of Advanced Computer Science and Applications, vol. 12, 2021.

[55]

M. Azrour, J. Mabrouki, A. Guezzaz and A. Kanwal, "Internet of things security: challenges and key issues," Security and Communication Networks, vol. 2021, p. 5533843, 2021.

[56]

N. Hasan, A. Chamoli and M. Alam, "Privacy challenges and their solutions in IoT," Internet of Things (IoT) Concepts and Applications, p. 219–231, 2020.

[57]

B. Diène, O. Diallo, J. J. P. C. Rodrigues, E. H. M. Ndoye and C. Teodorov, "Data management mechanisms for IoT: Architecture, challenges and solutions," in 2020 5th International Conference on Smart and Sustainable Technologies (SpliTech), 2020.

[58]

M. T. A. Bakar and A. A. Jamal, "Latency issues in internet of things: A review of literature and solution," International Journal, vol. 9, 2020.

[59]

L. Xing, "Reliability in Internet of Things: Current status and future perspectives," IEEE Internet of Things Journal, vol. 7, p. 6704–6721, 2020.

[60]

L. F. Osako, M. O. Matsubayashi, S. M. Takey, P. A. Cauchick-Miguel and E. Zancul, "Cost evaluation challenges for internet of things (iot) based product/service-systems (pss)," Procedia CIRP, vol. 84, p. 302–306, 2019.

[61]

I. Petruţ and M. Oteşteanu, "The IoT connectivity challenges," in 2018 IEEE 12th International Symposium on Applied Computational Intelligence and Informatics (SACI), 2018.

[62]

K. Anitha Kumari, R. Padmashani, R. Varsha and V. Upadhayay, "Securing Internet of Medical Things (IoMT) using private blockchain network," Principles of Internet of Things (IoT) Ecosystem: Insight Paradigm, p. 305–326, 2020.

[63]

V. Dedeoglu, R. Jurdak, A. Dorri, R. C. Lunardi, R. A. Michelin, A. F. Zorzo and S. S. Kanhere, "Blockchain technologies for iot," Advanced applications of blockchain technology, p. 55–89, 2020.

[64]

Q. Zhu, S. W. Loke, R. Trujillo-Rasua, F. Jiang and Y. Xiang, "Applications of distributed ledger technologies to the internet of things: A survey," ACM computing surveys (CSUR), vol. 52, p. 1–34, 2019.

[65]

P. Koukaras, K. D. Afentoulis, P. A. Gkaidatzis, A. Mystakidis, D. Ioannidis, S. I. Vagropoulos and C. Tjortjis, "Integrating Blockchain in Smart Grids for Enhanced Demand Response: Challenges, Strategies, and Future Directions," Energies, vol. 17, p. 1007, 2024.

[66]

S. Khalid, I. Ahmad and H. Lei, "A Consortium Blockchain-Based Approach for Energy Sharing in Distribution Systems," IEEE Transactions on Network and Service Management, 2024.

[67]

C. V. B. Murthy and M. L. Shri, "Secure Sharing Architecture of Personal Healthcare Data Using Private Permissioned Blockchain for Telemedicine," IEEE Access, 2024.

[68]

B. Liu, H. Tian, Z. Shen, Y. Xu and W. Dou, "A Consortium Blockchain-Based Edge Task Offloading Method for Connected Autonomous Vehicles," ACM Transactions on Autonomous and Adaptive Systems, 2024.

[69]

B. Bera, A. Vangala, A. K. Das, P. Lorenz and M. K. Khan, "Private blockchain-envisioned drones-assisted authentication scheme in IoT-enabled agricultural environment," Computer Standards & Interfaces, vol. 80, p. 103567, 2022.

[70]

Y. Bai, Q. Hu, S.-H. Seo, K. Kang and J. J. Lee, "Public participation consortium blockchain for smart city governance," IEEE Internet of Things Journal, vol. 9, p. 2094–2108, 2021.

[71]

Y. Feng, W. Zhang, X. Luo and B. Zhang, "A consortium blockchain-based access control framework with dynamic orderer node selection for 5G-enabled industrial IoT," IEEE Transactions on Industrial Informatics, vol. 18, p. 2840–2848, 2021.

[72]

M. Ammi, S. Alarabi and E. Benkhelifa, "Customized blockchain-based architecture for secure smart home for lightweight IoT," Information Processing & Management, vol. 58, p. 102482, 2021.

[73]

D. Wang and X. Zhang, "Secure data sharing and customized services for intelligent transportation based on a consortium blockchain," IEEE Access, vol. 8, p. 56045–56059, 2020.

[74]

J. Chen, T. Cai, W. He, L. Chen, G. Zhao, W. Zou and L. Guo, "A blockchain-driven supply chain finance application for auto retail industry," Entropy, vol. 22, p. 95, 2020.

[75]

M. Rana, Q. Mamun and R. Islam, "Lightweight cryptography in IoT networks: A survey," Future Generation Computer Systems, vol. 129, p. 77–89, 2022.

[76]

D. Chembakassery, "Proof of Computational Power: An Innovative Consensus Algorithm for Blockchain Systems," in The International Conference on Recent Innovations in Computing, 2023.

[77]

M. Rukhiran, S. Boonsong and P. Netinant, "Sustainable Optimizing Performance and Energy Efficiency in Proof of Work Blockchain: A Multilinear Regression Approach," Sustainability, vol. 16, p. 1519, 2024.

[78]

A. Jahid, M. H. Alsharif and T. J. Hall, "The convergence of Blockchain, IoT and 6G: potential, opportunities, challenges and research roadmap," Journal of Network and Computer Applications, vol. 217, p. 103677, 2023.

[79]

M. A. Qasem, F. Thabit, O. Can, E. Naji, H. A. Alkhzaimi, P. R. Patil and S. B. Thorat, "Cryptography algorithms for improving the security of cloud-based internet of things," Security and Privacy, vol. 7, p. e378, 2024.

[80]

R. Mathews and D. V. Jose, "Hybrid homomorphic-asymmetric lightweight cryptosystem for securing smart devices: A review," Transactions on Emerging Telecommunications Technologies, vol. 35, p. e4866, 2024.

[81]

A. Sharma, "Consensus Mechanisms in Blockchain Networks: Analyzing Various Consensus Mechanisms Such as Proof of Work (PoW), Proof of Stake (PoS), and Practical Byzantine Fault Tolerance (PBFT)," Blockchain Technology and Distributed Systems, vol. 1, p. 1–11, 2021.

[82]

S. C.-K. Chau, N. Wang and S. Karumba, "EnergiPay: Off-chain Payment Channel for Blockchain-enabled Peer-to-peer Energy Trading," in Proceedings of the 15th ACM International Conference on Future and Sustainable Energy Systems, 2024.

[83]

F. Firouzi, S. Jiang, K. Chakrabarty, B. Farahani, M. Daneshmand, J. Song and K. Mankodiya, "Fusion of IoT, AI, edge–fog–cloud, and blockchain: Challenges, solutions, and a case study in healthcare and medicine," IEEE Internet of Things Journal, vol. 10, p. 3686–3705, 2022.

[84]

A. M. Hussein, A. K. Idrees and R. Couturier, "Distributed energy-efficient data reduction approach based on prediction and compression to reduce data transmission in IoT networks," International Journal of Communication Systems, vol. 35, p. e5282, 2022.

[85]

V. Maurya, V. Rishiwal, M. Yadav, M. Shiblee, P. Yadav, U. Agarwal and R. Chaudhry, "Blockchain-driven security for IoT networks: State-of-the-art, challenges and future directions," Peer-to-Peer Networking and Applications, vol. 18, p. 1–35, 2025.

[86]

B. Sriman, S. Ganesh Kumar and P. Shamili, "Blockchain technology: Consensus protocol proof of work and proof of stake," in Intelligent Computing and Applications: Proceedings of ICICA 2019, 2021.

[87]

V. Buterin, Proof of stake: The making of Ethereum and the philosophy of blockchains, Seven Stories Press, 2022.

[88]

Q. Hu, B. Yan, Y. Han and J. Yu, "An improved delegated proof of stake consensus algorithm," Procedia Computer Science, vol. 187, p. 341–346, 2021.

[89]

G. Yu, X. Wang, K. Yu, W. Ni, J. A. Zhang and R. P. Liu, "Survey: Sharding in blockchains," IEEE Access, vol. 8, p. 14155–14181, 2020.

[90]

Y. Li, J. Wang and H. Zhang, "A survey of state-of-the-art sharding blockchains: Models, components, and attack surfaces," Journal of Network and Computer Applications, vol. 217, p. 103686, 2023.

[91]

F. Hashim, K. Shuaib and N. Zaki, "Sharding for scalable blockchain networks," SN Computer Science, vol. 4, p. 2, 2022.

[92]

C. Sguanci, R. Spatafora and A. M. Vergani, "Layer 2 blockchain scaling: A survey," arXiv preprint arXiv:2107.10881, 2021.

[93]

M. B. Saif, S. Migliorini and F. Spoto, "A Survey on Data Availability in Layer 2 Blockchain Rollups: Open Challenges and Future Improvements," Future Internet, vol. 16, p. 315, 2024.

[94]

M. Stipsits, Scalable Integration of Ethereum in a Microservice based Application through Layer 2 Rollups, University of Applied Sciences, 2023.

[95]

B. Y. K. Kasula, "Optimizing Smart Contracts with Machine Learning Techniques in Blockchain," International Journal of Creative Research In Computer Technology and Design, vol. 2, 2020.

[96]

F. Marcos Solis, S. E. Pomares Hernandez, J. R. Pérez Cruz and L. M. Rodrı́guez Henrı́quez, "Concurrency Conflict Modeling for Asynchronous Processing in Blockchain-Based Transactive Energy Systems," Mathematics, vol. 12, p. 3968, 2024.