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面向变电站二次系统的安全加固终端设备实现

Realization of Safety Reinforced Terminal Equipment for Secondary System of Substation
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摘要 随着信息化与工业化的高度融合,变电站二次系统智能化、自动化程度不断增强.人们在享受便利性的同时,也需直面网络带来的挑战与威胁.针对二次系统应用程序或工具在计算、传输过程中可能面临的机密性、完整性等安全威胁,基于USB接口的安全加固终端保护技术成为研究热点.传统的安全加固终端设备虽然生产方便,但其中的算法已经由厂商指定并下载到了相应的设备中.考虑到不同场景安全需求的差异较大,并且不同的用户存在多级的安全需求.通过ArduinoIDE平台对AVR单片机进行编程,设计实现了一个通用算法的安全加固终端设备,不仅实现了身份认证、内容加密等功能,同时满足了用户自主选择的个性化需求,提升了整个二次系统的安全性和可控性.经测试,初步证明了该终端的可用性和健壮性. With the high integration of informatization and industrialization,the degree of intelligence and auto⁃mation of the secondary system of substations has been continuously enhanced.While enjoying the convenience,we also need to face the challenges and threats brought by the Internet.In view of the confidentiality,integrity and other security threats that the secondary system applications or tools may face during the calculation and transmission pro⁃cess,the enhanced security terminal protection technology based on the USB interface has become a research hotspot.Although the traditional enhanced security terminal equipment is easy to produce,the algorithms in it have been speci⁃fied by the manufacturer and downloaded to the corresponding equipment.Considering that the security requirements of different scenarios are quite different,and different users have multi-level security requirements,the AVR micro⁃controller is programmed through the Arduino IDE platform,and an enhanced security terminal equipment with gen⁃eral algorithms is designed and implemented,which not only realizes functions such as identity authentication and con⁃tent encryption,but also meets the personalized needs of users'independent choices and improves the security and controllability of the entire secondary system.After the test,the usability and robustness of the terminal are prelimi⁃narily proved.
作者 王晓明 周柯 巫聪云 WANG Xiaoming;ZHOU Ke;WU Congyun(Electric Power Research Institute of Guangxi Power Grid Co Ltd,Nanning 530023,China;Guangxi Power Grid Co.,Ltd,Nanning 530023,China)
出处 《湖南大学学报(自然科学版)》 EI CAS CSCD 北大核心 2022年第4期69-77,共9页 Journal of Hunan University:Natural Sciences
基金 南方电网科技项目(GXKJXM20200242)。
关键词 电网系统 安全加固终端 单片机 变电站安全 grid system safety reinforcement terminal microcontrollers substation safety
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  • 1蔡谊,郑志蓉,沈昌祥.基于多级安全策略的二维标识模型[J].计算机学报,2004,27(5):619-624. 被引量:28
  • 2刘晓星,胡畅霞,刘明生.安全加密算法DES的分析与改进[J].微计算机信息,2006,22(04X):32-33. 被引量:40
  • 3庞红玲,安可,戎锋洪.基于身份加密系统的SIP认证机制[J].信息安全与通信保密,2007,29(5):133-135. 被引量:7
  • 4William Stalings.网络安全基础[M].白国强,译.北京:清华大学出版社,2007.
  • 5D. Meier, Alex Mackman, Michael Dunner, Srinath Vasireddy, Ray Escamilla and Anandha Mumkan. Improving Web Application Security: Threaes and Countermeasures[P,]. Microsoft Corporation, rnsdn library, 2003.7.
  • 6Storing passwor& using reversible encryption. Microsoft Documentation Resource[R]. Microsoft Corporation., 102716, 2004.
  • 7Sandhu Ravi S. Lattic-based access control model [J]. IEEE Computer, 1993, 26(11): 9~19.
  • 8Denning D E. A lattice model of secure information flow [J].Communications of the ACM, 1976, 19(5): 236~243.
  • 9卡哈特.密码学与网络安全[M].北京:清华大学出版社,2005.
  • 10CAESAR: Competition for Authenticated Encryption: Security, Applicability, and Robustness. [EB/OL]http://competitions.cr.yp.to/caesar.hnnl.

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