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Technical Challenges & Countermeasures of Blockchain Technology Application in Lifelong Education

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DOI: 10.23977/aetp.2020.41009 | Downloads: 8 | Views: 223


Xudong Li 1, Fang Wang 1, Xiaoru Qian 1, Xi Liu 1


1 School of Transportation & Economic Management, Guangdong Communication Polytechnic, Guangzhou,510650, China

Corresponding Author

Xudong Li


The Ministry of Education of China released the Action Plan of Education Informatization 2.0 which put forward the blueprint and prospect of the application of information technology including blockchain in the open lifelong education. For the existing blockchain technology, there are still limitations and challenges in solving the problems of large amount of educational resources data and huge scale of learning groups which are unique to the open lifelong education. In this paper, five aspects are analyzed and corresponding countermeasures are put forward.


Education Informatization 2.0; Blockchain Technology; Lifelong Education; Technical Challenges; Countermeasures


Xudong Li, Fang Wang, Xiaoru Qian and Xi Liu. Technical Challenges & Countermeasures of Blockchain Technology Application in Lifelong Education. Advances in Educational Technology and Psychology (2020) 4: 48-51. DOI:


[1] Pu-We, W., Hang-Tian, Y., Ji, M. et al. (2019) Formal Definition for Classical Smart Contracts and Reference Implementation. Journal of Software, 30 (9):2608-2619.
[2] Pang, S., Qi, X., & Zhang, Z. et al. (2019) Concurrency Protocol Aiming at High Performance of Execution and Replay for Smart Contracts. Journal of Computing Research Repository, abs/1905.07169.
[3] Ge, Y., Tie-Zheng, N., Xiao-Hua, L. et al. (2019) The Challenge and Prospect of Distributed Data Management Techniques in Blockchain Systems [J/OL]. Chinese Journal of Computers, 2019:1-27[2020-07-09]. tp.20191029.1604.004.html.
[4] Ge, Y., Bao-Ning, N., Che-Qing, J. (2019) Blockchain Data Management Special Topic Foreword. Journal of Software, 30(9):2569-2570.
[5] Dinh, T. T. A., Wang, J., & Chen G. et al. (2017) Blockbench: A Framework for Analyzing Private Blockchains. Proceedings of the 2017 ACM International Conference on Management of Data. Chicago: ACM: 1085-1100.
[6] Wood, G. (2019) Ethereum: A Secure Decentralised Generalised Transaction Ledger [EB/OL]. [2019-11-03].
[7] Chen, L., Lee, W. K., & Chang, C. (2019) Blockchain Based Searchable Encryption for Electronic Health Record Sharing. Future Generation Computer Systems, 95:420-429.
[8] Ya-Tao, Y., Ju-Liang, C., Xiao-Wei, Z. et al. (2019) Privacy Preserving Scheme in Block Chain with Provably Secure Based on SM9 Algorithm. Journal of Software, 30(6):1692- 1704.
[9] Li, F., Hadjieleftheriou, M., & Kollios, G. et al. (2006).Dynamic Authenticated Index Structures for Outsourced Databases. Proceedings of the 2006 ACM SIGMOD International Conference on Management of Data. Chicago: ACM: 121-132.

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