Abstract
As one of the core equipment of power consumption information collection system, the acquisition terminal carries a large amount of data and faces many information security risks. This paper analyzes the trusted computing system based on the China’s own cryptographic algorithm, combs the security risks faced by the acquisition terminal, and applies the trusted technology based on the China’s own cryptographic algorithm to the security reinforcement of the acquisition terminal. The design and research of the trusted acquisition terminal based on TCM is carried out from three aspects: the overall architecture, trusted start and trust chain transmission, which can improve the security and protection ability of the acquisition terminal effectively.
China Electric Power Research Institute Youth fund (JL84-18-001).
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References
Zhang, S.M., Wang, Z.Y., Wang, B.Y.: Terminal integrity detection scheme of electricity information acquisition system based on trusted computing. Electr. Power Autom. Equip. 37(12), 60–66 (2017)
The Research and Implementation of Embedded Power Distribution Terminal Based on Trusted Computing. North China Electric Power University, Beijing
Shen, C.X., Zhanu, H.U., Fend, D.U., et al.: Survey on information security. Sci. China Ser. E Inf. Sci. 37(2), 129–150 (2007)
Department of Defense Computer Security Center: Department of Defense Trusted Computer System Evaluation Criteria. DOD 5200.28-STD. DOD, USA (1985)
Shen, C.X., Gong, B.: The innovation of trusted computing based on the domestic cryptography. J. Cryptol. Res. 2(5), 381–389 (2015)
Trusted Computing Group. TCG [OL]. https://www.trusted.computinggroup.org
Trusted Computing Group [OL]. https://www.trusted.computinggroup.org/specs/
Trusted Computing Group, TCG Specification Architecture Overview [EB/OL]. Revision 1.4 (2007)
Trusted Mobile Platform Protocol Specification Document [EB/OL]. http://www.trusted-mobile.org/TMP_Protoeol_revl_00.Pdf
Yang, B., Wu, Z.-Q., Fu, X.-P.: Dynamic integrity measurement model based on trusted computing. Comput. Eng. 38(2) (2012)
Yu, Z., Zhang, W., Dai, H., et al.: A trusted architecture for virtual servers with trusted platform module and certify-cafe authority. J. Signal Process. Syst. 86(2/3), 327–336 (2017)
Mukhamedov, A., Gordon, A.D., Ryan, M.: Towards a verified reference implementation of a trusted platform module. In: Security Protocols XVII, pp. 69–81. Springer, Heidelberg (2013)
Zhai, B., Ni, M., Shi, Y., Fan, P.: A review on the security of embedded system. J. Wuhan Univ. (Nat. Sci. Ed.) 64(2), 95–108 (2018)
Xu, M.D., Zhang, H.G., Zhang, F., et al.: Survey on chain of trust of trusted system. Acta Electron. Sin. 42(10), 2024–2031 (2014)
Chang, D.X., Feng, D.G., Qin, Y., et al.: Analyzing the trust chain of trusted virtualization platform based on the extended LS2. J. Commun. 34(5), 31–41 (2013)
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Feng, Y., Liang, X., Zhai, F., Xu, M. (2019). Design and Research of Trusted Acquisition Terminals Based on Domestic Password. In: Barolli, L., Takizawa, M., Xhafa, F., Enokido, T. (eds) Web, Artificial Intelligence and Network Applications. WAINA 2019. Advances in Intelligent Systems and Computing, vol 927. Springer, Cham. https://doi.org/10.1007/978-3-030-15035-8_61
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DOI: https://doi.org/10.1007/978-3-030-15035-8_61
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