FOREX Press I. J. of Electrical & Electronics Research
Support Open Access
  • Home/
  • IJEER-100204

Review Article |

Block chain Technology to Handle Security and Privacy for IoT Systems: Analytical Review

Author(s) : Chen Zhonghua1,2 and S. B. Goyal2

Published In : International Journal of Electrical and Electronics Research (IJEER)        Volume 10, Issue 2 , Special Issue on IIoT-WSN

Publisher : FOREX Publication

Published : 13 May 2022

e-ISSN : 2347-470X

Page(s) : 74-79

DOI: https://doi.org/10.37391/IJEER.100204

Abstract

With a large number of mobile terminals accessing IoT for information exchange and communication, security issues such as identity authentication, data transmission, and device failure are becoming more and more serious. Most of the traditional security technologies are based on centralized systems, and due to the limitation of IoT topology, traditional security technologies can only be applied to specific industries. Blockchain technology has the features of decentralization, data encryption, and tamper-proof, which are especially suitable for application in complex heterogeneous networks. This paper discusses for the first time the use of the block chain in many fields, providing an opportunity to address IoT security issues. Second, it discussed the IoT acceptance on various domains and the privacy issues IoT faces on limited resources. Finally, this paper investigates many of the problems facing the integrated process of block chain-based and IoT-based applications. The purpose of this article is to provide an overview of block chain based policies for privacy protection in IoT. After analyzing related solutions, blockchain technology can work better in the area of IoT security and privacy protection

Keywords: BIoT (Blockchain+IoT), Internet of Things (IoT), Blockchain, Security, Privacy




Chen Zhonghua, BaiCheng Normal University, BaiCheng, China, City University, Petaling Jaya, Malaysia

S. B. Goyal, City University, Petaling Jaya, Malaysia; Email: drsbgoyal@gmail.com

[1] Shangrong. Jiang and YuzeLi, J. 2022. Blockchain competition: The tradeoff between platform stability and efficiency. European Journal of Operational Research, Volume 296, Issue 3, Pages 1084-1097.

[2] Ali Alferaidi, Kusum Yadav, Yasser Alharbi, Navid Razmjooy, Wattana Viriyasitavat, Kamal Gulati, Sandeep Kautish, Gaurav Dhiman, "Distributed Deep CNN-LSTM Model for Intrusion Detection Method in IoT-Based Vehicles", Mathematical Problems in Engineering, vol. 2022, Article ID 3424819, 8 pages.[Cross Ref]

[3] Lei. Wang and Yichao. Ma, J. 2022. Design of integrated energy market cloud service platform based on blockchain smart contract. International Journal of Electrical Power & Energy Systems, Volume 135, 107515. [Cross Ref]

[4] Tonghe. Wang and Haochen. Hua, J. 2022. Challenges of blockchain in new generation energy systems and future outlooks. International Journal of Electrical Power & Energy Systems, Volume 135, 107499.[Cross Ref]

[5] Shangrong. Jiang and Yuze. Li, J. 2022. Blockchain competition: The tradeoff between platform stability and efficiency. European Journal of Operational Research, Volume 296, Issue 3, Pages 1084-1097.[Cross Ref]

[6] Maxat. Kassen, J. 2022. Blockchain and e-government innovation: Automation of public information processes. Information Systems 103, 101862.[Cross Ref]

[7] Ghonimy and Mohamed. Eid Helmy, J. 2021. Factors Influencing the Decision to Adopt Blockchain Technology. Capella University ProQuest Dissertations Publishing, 28547645.

[8] Saurabh. Shukla and Subhasis. Thakur, J. 2021. Identification and Authentication in Healthcare Internet-of-Things Using Integrated Fog Computing Based Blockchain Model. Internet of Things, 100422.[Cross Ref]

[9] Christian F. Durach, Till Blesik. J. 2021. Blockchain Applications in Supply Chain Transactions [J]. Journal of Business Logistics 42(1), 7–24. [Cross Ref]

[10] Josepha. Witt, J. 2021. When is Blockchain Technology Valuable? –A State-of-the-Art Analysis. UK Academy for Information Systems (UKAIS).

[11] Christian. F. Durach and Till, J. 2021. Blesik. Blockchain Applications in Supply Chain Transactions. Journal of Business Logistics, 42(1): 7–24.[Cross Ref]

[12] Huawei Huang and Wei Kong, J. 2021. A Survey of State-of-the-Art on Blockchains: Theories, Modelings, and Tools. ACM Comput. Surv, 42-54 pages.

[13] Mahtab.Kouhizadeh, J. 2021. Blockchain technology and the sustainable supply chain: Theoretically exploring adoption barriers. International Journal of Production Economics, Volume 231, 107831.[Cross Ref]

[14] Iftikhar Zainab and Yasir. Javed. Syed Y.A, J. 2021. Zaidi. Munam A. Privacy Preservation in Resource-Constrained IoT Devices Using Blockchain—A Survey. Electronics 10, no. 14: 1732.[Cross Ref]

[15] Aparna Kumari and Rajesh Gupta, J. 2021. Amalgamation of blockchain and IoT for smart cities underlying 6G communication: A comprehensive review. Computer Communications, Volume 172, Pages 102-118. [Cross Ref]

[16] Shantanu. Pal. and Ali. Dorri, J. 2021. Blockchain for IoT Access Control: Recent Trends and Future Research Directions. arXiv, 2106.04808.[Cross Ref]

[17] Algarni and Sultan. Fathy Eassa, J. 2021. Blockchain-Based Secured Access Control in an IoT System. Applied Sciences, 11, no. 4: 1772.[Cross Ref]

[18] Laphou. Lao and Zecheng, J. 2021. A Survey of IoT Applications in Blockchain Systems: Architecture, Consensus, and Traffic Modeling. ACM Computing SurveysVolume, 53 Issue 1 Article No.18pp 1–32.[Cross Ref]

[19] Marco. Picone and Simone. Cirani, J. 2021. Blockchain Security and Privacy for the Internet of Things. Sensors (Basel), 21(3): 892.[Cross Ref]

[20] S. Sun. and R Du, J. 2021. Blockchain-Based IoT Access Control System: Towards Security, Lightweight, and Cross-Domain. IEEE Access, vol. 9, pp. 36868-36878.

[21] Pavithran. D. and Shaalan. K, J. 2020. Towards building a blockchain framework for IoT. Cluster Comput, 2089–2103.[Cross Ref]

[22] Fei. Chen and Zhe. Xiao, J. 2020. Blockchain for Internet of things applications: A review and open issues. Journal of Network and Computer Applications, Volume 172, 102839.

[23] A.Subhadra, R.Ganesh, K.Maheshbabu, K.Sai Sandeep, J. 2020. Iot Based Real Time Weather Monitoring System, International Journal of Engineering Applied Sciences and Technology , Vol.4, Issue 11, ISSN No 2455-2143, Pages 384-392.[Cross Ref]

[24] M. Pradhan and J. Noll, J. 2020. Security, Privacy, and Dependability Evaluation in Verification and Validation Life Cycles for Military IoT Systems. IEEE Communications Magazine, vol. 58, no. 8, pp. 14-20.[Cross Ref]

[25] J. K. Solomon Doss and S. Kamalakkannan, J. 2020. IoT System Accomplishment using BlockChain in Validating and Data Security with Cloud. 2020 Fourth International Conference on I-SMAC (IoT in Social, Mobile, Analytics and Cloud) (I-SMAC), pp. 60-64.[Cross Ref]

[26] Smetanin. Sergey and Aleksandr. Ometov, J. 2020. Blockchain Evaluation Approaches: State-of-the-Art and Future Perspective, Sensors 20, no. 12: 3358.[Cross Ref]

[27] D. Torres and J. P. Dias, J.2020. Real-time Feedback in Node-RED for IoT Development: An Empirical Study. IEEE/ACM 24th International Symposium on Distributed Simulation and Real Time Applications (DS-RT).

[28] V. Sharma. I. and You, K. Andersson. J. 2020. Security, Privacy and Trust for Smart Mobile- Internet of Things (M-IoT): A Survey. IEEE Access, vol. 8, pp. 167123-167163.[Cross Ref]

[29] Yan. Zhang.and Bing. Li, J. 2020. An Attribute-Based Collaborative Access Control Scheme Using Blockchain for IoT Devices. Electronics, 9(2), 285.[Cross Ref]

[30] Md. Sadek. Ferdous and Mohammad, Jabed Morshed Chowdhury, J. 2020. Blockchain Consensus Algorithms: A Survey. arXiv: 2001, 07091 [cs.DC].[Cross Ref]

[31] Rui. Zhang.and Rui. Xue. J. 2019. Security and Privacy on Blockchain. ACM Comput. Surv, Vol. 52, No. 3.

[32] Malak. Alamri and NZ. Jhanjhi, J. 2019. Blockchain for Internet of Things (IoT) Research Issues Challenges & Future Directions: A Review. International Journal of Computer Science and Network Security International, Vol.19 No.5.

[33] Bhabendu. KumarMohanta.and Debasish. Jena, J. 2019. Blockchain technology: A survey on applications and security privacy Challenges. Internet of Things, Volume 8, 100107.[Cross Ref]

[34] Erdem, A. and Yildirim, S.Ö, J. 2019. Blockchain for Ensuring Security, Privacy, and Trust in IoT Environments: The State of the Art. Security, Privacy and Trust in the IoT Environment, pp 97–122.[Cross Ref]

[35] R. Henry. And A. Herzberg, G. 2018. Blockchain Access Privacy: Challenges and Directions. IEEE Security & Privacy, vol. 16, no. 4.[Cross Ref]

[36] Francesco Restuccia and Salvatore D’Oro, J. Blockchain for the Internet of Things: Present and Future. IEEE INTERNET OF THINGS JOURNAL, Vol. 1, NO. 1.

[37] Dylan, Yaga and Peter, Mell, J. 2018. Blockchain Technology Overview. National Institute of Standards and Technology Internal Report, 8202 66 pages.[Cross Ref]

[38] G. Karame and S. Capkun, J. 2018. Blockchain Security and Privacy. IEEE Security & Privacy, vol. 16, no. 04, pp.[Cross Ref]

[39] O. Novo, J. 2018. Blockchain Meets IoT: An Architecture for Scalable Access Management in IoT. IEEE Internet of Things Journal, vol. 5, no. 2, pp. 1184-1195. [Cross Ref]

[40] Z, Zheng, S. and Xie. H, J. 2017. An Overview of Blockchain Technology: Architecture, Consensus, and Future Trends. IEEE International Congress on Big Data (BigData Congress) 557-564.[Cross Ref]

[41] Harald. Sundmaeker, J. 2010. Vision and challenges for realising the Internet of Things. Luxembourg: Publications Office of the European Union.

Chen Zhonghua and S. B. Goyal (2022), Block chain Technology to Handle Security and Privacy for IoT Systems: Analytical Review. IJEER 10(2), 74-79. DOI: 10.37391/IJEER.100204.