政府信息化网络水平测试系统设计
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摘要
为提高政府信息化办公水平,进行信息化网络水平测试系统优化设计,提出一种基于有源RFID和嵌入式技术的政府信息化网络水平测试系统设计方法。采用RFID阅读器进行网络信息采集,结合无线组网和多传感组网技术进行政府信息化网络连通性测试,采用主动检测方法进行政府信息化办公设备的物联网设计,在嵌入式环境下进行的政府信息化网络水平测试系统的硬件开发,主要功能模块包括物联网组网模块、传感器模块、主动控制模块、信息处理模块等。采用MSP430处理器作为政府信息化网络水平测试系统的核心控制器,采用ARM Cortex-M3内核进行系统的集成设计。测试结果表明,采用该系统进行政府信息化网络水平测试的稳定性较好,智能信息处理能力较强。
In order to improve the level of government informatization office and optimize the design of information network level testing system,a design method of government information network level testing system based on active RFID and embedded technology is proposed.RFID reader is used to collect network information,combined with wireless network and multi-sensor networking technology to test the connectivity of government information network,and to design the Internet of things of government information office equipment by active detection method.The hardware development of the government information network level testing system under the embedded environment,the main function modules include networking module,sensor module,active control module,information processing module and so on.The MSP430 processor is used as the core controller of the government information network level testing system,and the ARM Cortex-M3 kernel is used for the integrated design of the system.The test results show that the system has good stability and intelligent information processing ability.
In order to improve the level of government informatization office and optimize the design of information network level testing system,a design method of government information network level testing system based on active RFID and embedded technology is proposed.RFID reader is used to collect network information,combined with wireless network and multi-sensor networking technology to test the connectivity of government information network,and to design the Internet of things of government information office equipment by active detection method.The hardware development of the government information network level testing system under the embedded environment,the main function modules include networking module,sensor module,active control module,information processing module and so on.The MSP430 processor is used as the core controller of the government information network level testing system,and the ARM Cortex-M3 kernel is used for the integrated design of the system.The test results show that the system has good stability and intelligent information processing ability.
引文
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[2]薛胜军,胡敏达,许小龙.云环境下公平性优化的资源分配方法[J].计算机应用,2016,36(10):2686-2691.
[3]张莉,张春红.多跳水下传感器网络中的功率分配算法[J].舰船科学技术,2012,34(8):73-75.
[4]宋军,刘渝,薛妍妍.LFM-BPSK复合调制信号识别与参数估计[J].南京航空航天大学学报,2013,45(2):217-224.
[5]马丽,张君.地方政府网络舆情监测系统的研究与设计[J].通信技术,2017,50(11):2600-2603.
[6]佘俊,陈黎,钟保强,等.中小型企业信息化的整体控制系统设计[J].现代电子技术,2018,(3):161-165.
[7]李文鹏,张旸旸,刘潇健.基于FEA的政府信息化绩效评价策略研究[J].中国标准化,2017,(9):45-50.
[8] YAN Q,XU L,SHI J,et al.Hierarchical saliency detection[C]∥CVPR'13:Proceedings of the 2013 IEEE Conference on Computer Vision and Pattern Recognition. Washington,DC:IEEE Computer Society,2013:1155-1162.
[9] WANG X,NING C,XU L.Spatiotemporal saliency model for small moving object detection in infrared videos[J].Infrared Physics&Technology,2015,69:111-117.
[10] BI S,HO C K,ZHANG R. Wireless powered communication:opportunities and challenges[J].IEEE Communications Magazine,2015,53(4):117-125.
[11] ULUKUS S,YENER A,ERKIP E,et al. Energy harvesting wireless communications:a review of recent advances[J].IEEE Journal on Selected Areas in Communications,2015,33(3):360-381.
[12] ZHAO N,ZHANG S,YU R,et al.Exploiting interference for energy harvesting:a survey,research issues and challenges[J].IEEE Access,2017,(5):10403-10421.
[13] LI H,HUANG C,CUI S.Multiuser gain in energy harvesting wireless communications[J]. IEEE Access,2017,(5):10052-10061.
[14] SEO D W,LEE J H,LEE H S.Optimal coupling to achieve maximum output power in a WPT system[J].IEEE Transactions on Power Electronics,2016,31(6):3994-3998.
[15] DAI H,HUANG Y,LI C,et al.Energy-efficient resource allocation for device-to-device communication with WPT[J].IET Communications,2017,11(3):326-334.