一种工业物联网安全认证机制及分析
An Industrial Internet of Things Security Cer-tification Mechanism and Analysis
DOI: 10.12677/CSA.2018.83037, PDF,   
作者: 甘 勇*:中国石油运输有限公司土库曼斯坦分公司,新疆 乌鲁木齐;邬群辉:上海昊长环保科技有限公司,上海
关键词: 工业物联网安全认证Industrial Internet of Things Security Certification
摘要: 目前物联网的安全问题已经成为大家关注的焦点问题,尤其在工业物联网的安全防护和评估的发展方面,很多国家尚无系统化的安全防护体系,也缺乏适用于工业物联网在各领域的通用和专用安全标准和规范。因此建立全面的安全防御体系,并开发一系列的工业物联网安全防护产品,以及制定针对工业物联网的评估系列标准,不仅保证人民的日常生活、安全生产活动,而且为社会的稳定、基础设施和战略信息的安全提供了保障,对国家安全都具有重要战略意义。因此需要一种可靠的工业物联网安全认证机制以及分析潜在的物联网的安全风险来减少问题的出现和实体的损失。
Abstract: At present, the security issue of IoT has become the focus of attention. Especially in the development of industrial IoT security protection and evaluation, there is no systematic security protection system in many countries. There is also a lack of application in various fields of industrial IoT general and specific safety standards and specifications. Therefore, establishing a comprehensive security defense system and developing a series of industrial IoT security products and formulating a series of evaluation standards for networking of industrial networks not only ensure the daily life and safety production activities of the people of the factory, but also provide the basis for social stability. The security of facilities and strategic information is a guarantee of security and is of strategic importance to national security. Therefore, a reliable industrial Internet of Things security certification mechanism is needed and the potential risks of IoT are analyzed to reduce the emergence of problems and the loss of entities.
文章引用:甘勇, 邬群辉. 一种工业物联网安全认证机制及分析[J]. 计算机科学与应用, 2018, 8(3): 323-327. https://doi.org/10.12677/CSA.2018.83037

参考文献

[1] Khattab, A., Jeddi, Z., Amini, E., et al. (2017) RFID Security Threats and Basic Solutions. RFID Security. Springer International Pub-lishing, Berlin, 27-41.
[2] Khattab, A., Jeddi, Z., Amini, E., et al. (2017) Introduction to RFID. RFID Security. Springer International Publishing, Berlin, 3-26.
[3] 张兴, 韩冬, 曹光辉, 贾旭. 基于PRESENT算法的RFID安全认证协议[J]. 通信学报, 2015(S1): 65-74.
[4] Ha, J.C., Ha, J.H., Moon, S.J., et al. (2007) LRMAP: Lightweight and Resynchronous Mutual Authentication Protocol for RFID System. Ubiquitous Convergence Technology. Springer, Berlin Heidelberg, 80-89.
[5] Wang, S., Liu, S. and Chen, D. (2015) Security Analysis and Improvement on Two RFID Authentication Protocols. Wireless Personal Communications, 82, 21-33. [Google Scholar] [CrossRef
[6] Abughazalah, S., Markantonakis, K. and Mayes, K. (2015) Secure Improved Cloud-Based RFID Authentication Protocol. Data Privacy Management, Autonomous Spontaneous Security, and Security Assurance. Springer International Publishing, Berlin, 147-164.
[7] Desai, N. and Das, M.L. (2015) On the Security of RFID Authentication Protocols. IEEE International Conference on Electronics, Computing and Communication Technologies (CONECCT), Bangalore, 10-11 July 2015, 1-5. [Google Scholar] [CrossRef
[8] Sarma, S.E., Weis, S.A. and Engels, D. (2003) Ra-dio-Frequency-Identification Security Risks and Challenges. Cryptobytes, 6, 93-98.
[9] Sarma, S.E., Weis, S.A. and Engels, D.W. (2002) RFID Systems and Security and Privacy Implications. International Workshop on Cryptographic Hardware and Embedded Sys-tems. Springer, Berlin Heidelberg, 454-469.
[10] Henrici, D. and Muller, P. (2004) Hash-Based Enhancement of Location Privacy for Radio-Frequency Identification Devices Using Varying Identifiers. Proceedings of the Second IEEE Annual Conference on Pervasive Computing and Communications Workshops, Orlando, FL, 14-17 March 2004, 149-153.
[11] 谢磊, 殷亚凤, 陈曦, 陆桑璐, 陈道蓄. RFID数据管理: 算法、协议与性能评测[J]. 计算机学报, 2013, 36(3): 457-470.
[12] Kuznetsov, A.A. (2015) Parallel Algo-rithm for MD5 Collision Attack. Program Systems Theory & Applications, 61, 61-72.