物联网框中软件架构稳定性测试系统设计
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摘要
针对传统的稳定性测试系统一直存在测试不准确、误差大的问题,提出并设计了基于信息认证的物联网框中软件架构稳定性测试系统。在分析物联网软件框架特征及需求的基础上,引入认证处理程序,对物联网信息进行安全认证;在通过使用CycloneⅢ3C25F32芯片进行物联网信息发送,采用Virtex-5系列芯片的16 bit移位寄存器,对信息进行接收,分析其稳定性能。实验结果表明,采用改进系统对物联网软件架构稳定性进行测试时,其准确度及效率均要优于传统测试系统,具有一定的优势。
As the traditional stability testing system has the long-term existing problems of inaccuracy and big error in measurement,a software architecture stability testing system in the Internet of Things(IoT)framework based on information authentication is proposed and designed. On the basis of analyzing of the features and requirements of the IoT software framework,the authentication processing program is introduced to authenticate the security of IoT information. The Cyclone Ⅲ 3 C25 F32 chip is used to transmit IoT information. The 16-bit shift register of the Virtex-5 series chip is used to receive information and analyze its stability performance. The experimental results show that,in comparison with the traditional testing system,the improved system has better accuracy and efficiency in IoT software architecture stability testing,which has a certain advantage.
As the traditional stability testing system has the long-term existing problems of inaccuracy and big error in measurement,a software architecture stability testing system in the Internet of Things(IoT)framework based on information authentication is proposed and designed. On the basis of analyzing of the features and requirements of the IoT software framework,the authentication processing program is introduced to authenticate the security of IoT information. The Cyclone Ⅲ 3 C25 F32 chip is used to transmit IoT information. The 16-bit shift register of the Virtex-5 series chip is used to receive information and analyze its stability performance. The experimental results show that,in comparison with the traditional testing system,the improved system has better accuracy and efficiency in IoT software architecture stability testing,which has a certain advantage.
引文
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[3]韩丹,张荆沙,李吴松,等.物联网中WSN网络中的节点故障快速定位模块设计与实现[J].现代电子技术,2016,39(18):30-34.HAN Dan,ZHANG Jingsha,LI Wusong,et al. Design and implementation of fast positioning module for node faults in WSN in Internet of Things[J]. Modern electronics technique,2016,39(18):30-34.
[4]邓雪峰,孙瑞志,聂娟,等.基于时间自动机的温室环境监控物联网系统建模[J].农业机械学报,2016,47(7):301-308.DENG Xuefeng,SUN Ruizhi,NIE Juan,et al. Greenhouse environment monitoring IOT system modeling based on timed automata[J]. Transactions of the Chinese Society for Agricultural Machinery,2016,47(7):301-308.
[5]黎敏.基于五层物联网架构的煤矿安全监控系统设计[J].煤炭技术,2016,35(3):264-266.LI Min. Design of safety monitoring system in coal mine based on five layers Internet of Things[J]. Coal technology,2016,35(3):264-266.
[6]孙宝刚.云框架结构稳定性的检测平台设计与实现[J].现代电子技术,2017,40(4):66-69.SUN Baogang. Design and implementation of detection platform for cloud frame structure stability[J]. Modern electronics technique,2017,40(4):66-69.
[7]周恩浩.高校智慧教室物联网系统设计与实现[J].现代电子技术,2018,41(2):30-33.ZHOU Enhao. Design and implementation of Internet of Things system for university intelligent classroom[J]. Modern electronics technique,2018,41(2):30-33.
[8]卢军,刘杰,胡凡,等.基于Android和物联网的四轴运动平台控制系统设计与实现[J].制造技术与机床,2016(2):64-68.LU Jun,LIU Jie,HU Fan,et al. Design and implementation of four-axis motion platform control system based on Android and Internet of Things[J]. Manufacturing technology&machine tool,2016(2):64-68.
[9]于继武,邢远秀.基于物联网技术的油田输油管道监控系统设计[J].油气储运,2016,35(11):1212-1215.YU Jiwu,XING Yuanxiu. Design of oilfield pipeline monitoring system based on Internet of Things[J]. Oil&gas storage and transportation,2016,35(11):1212-1215.
[10]阎坚,桂劲松.基于物联网技术的智慧教室设计与实现[J].中国电化教育,2016(12):83-86.YAN Jian,GUI Jinsong. Design and implementation of intelligent classroom based on Internet of Things technology[J]. China educational technology,2016(12):83-86.
[11]张茜,于瑞洋.基于物联网的地质资料库房智能管理系统的设计与实现[J].中国矿业,2016,25(11):83-87.ZHANG Qian,YU Ruiyang. The architecture and implementation of intelligent management system for a geological archives warehouse based on Internet of Things[J]. China mining magazine,2016,25(11):83-87.
[12]陈凤.复杂网络数据信息传输稳定性检测仿真研究[J].计算机仿真,2018,35(1):341-344.CHEN Feng. Simulation research on stability detection of data transmission in complex networks[J]. Computer simulation,2018,35(1):341-344.