Using IDoT Attributes for Secure Power Data Sharing Based on Blockchain Dynamic Access Control
AUTHORS
Jae-Kyu Lee,Dept. Techno-Management Cooperation Course, Dongguk Univ., 123 Dongdae-ro, Gyeongju-si, Gyeongsangbuk-do, 38066, Korea
You-jin Song,Corresponding Author, Dept. Information Management, Dongguk Univ., 123 Dongdae-ro, Gyeongju-si, Gyeongsangbuk-do, 30866, Korea
ABSTRACT
Data collected through devices are stored in a single cloud and processed in Internet of Things (IoT) environment. Because IoT has a limitation of computing and storage space of devices. In order to solve the problem of reliability of centralized system, previous researches have been carried out to link blockchain to the Internet. However, user privacy protection is an indispensable factor for sharing data through the Internet. However, these limitations are not overcome. In this paper, the access control of the user is made flexible and robust through Dynamic Access Control Table (DACT) using the context attribute of IDentity of Things (IDoT). The system proposed in this paper can build a platform to securely share users’ power consumption data in the energy cloud.
KEYWORDS
Internet of Things, Blockchain based on tangle, Energy cloud, Data privacy, IDoT, Dynamic access control table (DACT)
REFERENCES
[1] Kwok-Yan Lam and Chi-Hung Chi, “Identity in the Internet-of-Things (IoT): New challenges and opportunities,” Information and Communications Security: 18th International Conference, ICICS 2016, pp.18-26, (2016)
[2] You-jin Song, Aria Seo, Jaekyu Lee, and Yei-chang Kim, “Access control policy of data considering varying context in sensor fusion environment of Internet of Things,” KIPS Transactions on Software and Data Engineering, vol.4, pp.409-418, (2015)
[3] Truc Dinh, Trung Nguyen, and Hoang-Anh Pham, “Leveraging blockchain to enhance data privacy in IoT-based applications,” 7th International Conference, Computational Data and Social Networks, pp.211-221, (2018) DOI: 10.1007/978-3-030-04648-4_18(CrossRef)(Google Scholar)
[4] Yunru Zhang, Debiao He, and Kim-Kwang Raymond Choo, “Bads: Blockchain-based architecture for data sharing with ABS and CP-ABE in IoT,” Wireless Communications and Mobile Computing, vol.2018, pp.9, Article ID 2783658, (2018)
[5] Hossein Shafagh, Anwar Hithnawi, and Simon Duquennoy, “Towards blockchain-based auditable storage and sharing of IoT data,” CCSW ‘17 Proceedings of the 2017 on Cloud Computing Security Workshop, pp.45-50, (2017) DOI:10.1145/3140649.3140656 (CrossRef)(Google Scholar)
[6] Stefan Katzenbeisser, Ünal Kocabaş, Vladimir Rožić, Ahmad-Reza Sadeghi, Ingrid Verbauwhede, and Christian Wachsmann, “PUFs: Myth, fact or busted? A security evaluation of Physically Unclonable Functions (PUFs) cast in silicon, international workshop on cryptographic hardware and embedded systems” CHES 2012: Cryptographic Hardware and Embedded Systems, pp.283-301, (2012)
[7] Yi Wang, Qixin Chen, Tao Hong, and Chongqing Kang, “Review of smart meter data analytics: Applications, methodologies, and challenges,” IEEE Transactions on Smart Grid, vol.10, no.3, pp.3125-3148, (2019)
[8] Federico Lombardi, Leonardo Aniello, Stefano De Angelis, Andrea Margheri, and Vladimiro Sassone, “A blockchain-based infrastructure for reliable and cost-effective IoT-aided smart grids,” Living in the Internet of Things Conference: Cybersecurity of the IoT - A PETRAS, (2019)
[9] Anish Jindal, Gagangeet Singh Aujla, and Neeraj Kumar, “SURVIVOR: A blockchain based edge-as-a-service framework for secure energy trading in SDN-enabled vehicle-to-grid environment,” Computer Networks, vol.153, pp.36-48, (2019)
[10] Muneeb Ul Hassan, Mubashir HusainRehmani, and Jinjun Chen, “Privacy preservation in blockchain based IoT systems: Integration issues, prospects, challenges, and future research directions,” Future Generation Computer Systems, vol.97, pp.512-529, (2019)
[11] Zhetao Li, Jiawen Kang, Rong Yu, Dongdong Ye, Qingyong Deng, and Yan Zhang, “Consortium blockchain for secure energy trading in industrial Internet of Things,” IEEE Transactions on Industrial Informatics, vol.14, no.8, pp.3690-3700, (2018)
[12] Serguei P, “The tangle,” IOTA website, (2017)