Abstract
With the further advancement of the government information resource sharing mechanism, the realization of data sharing between departments under the support of safe and effective technology has become focus of common concern for government departments and the public. Blockchain provides new ideas and ways for government departments to share data securely and efficiently. On the basis of analyzing the risk of disclosure of private information of citizens and enterprises in government data sharing, this paper discusses the data sharing framework of privacy preserving among government departments based on hyperledger blockchain and describes the corresponding data sharing process. Through an example of data sharing application between government departments, the feasibility and advantages of the proposed privacy preserving government data sharing framework based on blockchain technology are presented.
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Otjacques, B., Hitzelberger, P., Feltz, F.: Interoperability of E-government information systems: issues of identification and data sharing. J. Manag. Inf. Syst. 23(4), 29–51 (2007)
Welch, E.W., Feeney, M.K., Park, C.H.: Determinants of data sharing in U.S. city governments. Gov. Inf. Q. 33(3), 393–403 (2016)
Ministry of Industry and Information Technology Information Center: 2018 White Paper on China’s Block Chain Industry [J/OL], 15 2018. http://www.miit.gov.cn/n1146290/n1146402/n1146445
Willard, M., Maharaj, M.S.: Privacy, security, trust, risk and optimism bias in e-government use: the case of two Southern African development community countries. S. Afr. J. Inf. Manag. 21, 1–9 (2019)
Huang, R., Chen, C.: Cooperation model of US government data opening and sharing. Libr. Inf. Work. 60(19), 6–14 (2016)
Sarathy, R., Muralidhar, K.: Secure and useful data sharing. Decis. Support Syst. 42(1), 204–220 (2004)
Clarke, S.: Reducing the impact of cyberthreats with robust data governance. Comput. Fraud. Secur. 2016(07), 12–15 (2016)
Liu, Y.: Research on government affairs openness in big data environment. Inf. Syst. Eng. 5, 146–147 (2018)
Sun, L., Li, G.J.: The research based on OGD application analysis model. Libr. Inf. Serv. 3, 97–108 (2017)
Nakamoto, S.: Bitcoin: a peer-to-peer electronic cash system (2008). Maxwell, J.C.: A Treatise on Electricity and Magnetism, 3rd edn, vol. 2, pp. 68–73. Clarendon, Oxford (1892)
Tan, H., Zhou, T., Zhao, H., Zhao, Z., Wang, W., Zhang, Z., et al. File data protection and sharing method based on block chain [J/OL]. J. Softw. 1–15 (2019). https://doi.org/10.13328/j.cnki.jos.005770
Chuan, X., An, G., Liu, J.: Research on the construction of resource sharing service model of university libraries based on block chain theory. Libr. Res. 49(03), 56–62 (2019)
Taylor, S.: Distributed ledger technology: beyond blockchain, 41. Government Office for Science, UK (2016)
Xia, Q., Sifa, E.B., Asamoah, K.O., et al.: MeDShare: trust-less medical data sharing among cloud service providers via blockchain [J/OL]. IEEE Access 5(99), 14757–14767 (2017)
Jin, Y., Danny, X., Wang, G., Zeng, Z.: Research on e-government big data security sharing based on block chain. Inf. Secur. Res. 11 (2018)
Yimin, Yu., Chen, T., Duan, Z., et al.: Research on sharing model of government information resources based on block chain. E-Government 04, 58–67 (2019)
Ojo, A., Adebayo, S.: Blockchain as a next generation government information infrastructure: a review of initiatives in D5 countries. In: Ojo, A., Millard, J. (eds.) Government 3.0 – Next Generation Government Technology Infrastructure and Services, pp. 283–298. Springer (2017)
Wang, M.L., Lu, J.Y.: Research on block chain technology and its application in government governance. e-Government 02, 2–14 (2018)
Zhang yi, Xiao congli, ning xiaojing. the influence of block chain technology on government governance innovation [J]. e-government. 2016(12)
Piao, Ch.H., Shi, Y.J., Yan, J.Q., Zhang, Ch.Y., Liu, L.P.: Privacy-preserving governmental data publishing: a fog-computing-based differential privacy approach. Futur. Gener. Comput. Syst. 90, 158–174 (2019)
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Hao, Y., Piao, C., Zhao, Y., Jiang, X. (2020). Privacy Preserving Government Data Sharing Based on Hyperledger Blockchain. In: Chao, KM., Jiang, L., Hussain, O., Ma, SP., Fei, X. (eds) Advances in E-Business Engineering for Ubiquitous Computing. ICEBE 2019. Lecture Notes on Data Engineering and Communications Technologies, vol 41. Springer, Cham. https://doi.org/10.1007/978-3-030-34986-8_27
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DOI: https://doi.org/10.1007/978-3-030-34986-8_27
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