基于安全协议的智能灌溉系统设计
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摘要
针对现有智能灌溉系统中数据交互的安全问题,设计了一种基于安全协议的智能灌溉系统.智能灌溉系统以此安全协议为核心,并设计身份认证模块、签名模块、签名验证模块,实现了安全协议.最后对智能灌溉系统进行实验与仿真,实验结果表明基于安全协议的智能灌溉系统运行效率高,在智能灌溉装置计算能力和传输能力较弱的情况下具有良好的适用性和安全性.
Aiming at the security problems of data interaction in current intelligent irrigation systems,a security protocol based on intelligent irrigation system is designed.Takeing the security protocol as the core,the intelligent irrigation system constructs a security protocol by designing the identity authentication module,the signature module and the signature verification module.Finally,the experiment and simulation of the intelligent irrigation system are carried out.The result shows that the intelligent irrigation system based on security protocol is efficient,and has good applicability and security in the case of weak computing and transmission capacity of intelligent irrigation devices.
Aiming at the security problems of data interaction in current intelligent irrigation systems,a security protocol based on intelligent irrigation system is designed.Takeing the security protocol as the core,the intelligent irrigation system constructs a security protocol by designing the identity authentication module,the signature module and the signature verification module.Finally,the experiment and simulation of the intelligent irrigation system are carried out.The result shows that the intelligent irrigation system based on security protocol is efficient,and has good applicability and security in the case of weak computing and transmission capacity of intelligent irrigation devices.
引文
[1]高玉芹.基于ZigBee和模糊控制决策的自动灌溉系统的设计[J].节水灌溉,2010(8):52-55.
[2]黎啟江,王祥宁,张倩.远程无线传感器技术在智能灌溉监控中的应用[J].农机化研究,2010,32(3):182-188.
[3]戴菲菲,彭力.基于ZigBee网络和D-S数据融合的灌溉系统设计[J].计算机研究与发展,2011,48(S2):350-354.
[4]周振峰,张伟.基于WSN与嵌入式组态软件的智能灌溉系统[J].浙江农业科学,2011(2):438-441.
[5]杜云明,盖丽娜,颜兵兵.基于单片机的温室灌溉控制系统设计[J].农机化研究,2012,34(12):88-91.
[6]Yu J M,Barradas M,Matula S,et al.A Decision Support System-FertIgat-Ion Simulator(DSS-FS)for designand optimization of sprinkler and dripirrigation systems[J].Computers and Electronics in Agriculture,2012,86:111-119.
[7]纪文义,张继成,郑萍,等.基于无线网络的农田灌溉智能监测系统[J].农机化研究,2013,35(10):171-173.
[8]Mohan J R.Design of Level Basin Irrigation Systems for Robust Performance[J].Journal of Irrigationand Drainage Engineering,2013,139(3):254-260.
[9]王永涛,陈思璇,李家春,等.基于无线数据传输的智能化节水灌溉控制系统研究[J].节水灌溉,2014(10):92-96.
[10]邓晓栋,翁绍捷.基于Android平台的智能水肥灌溉系统设计[J].广东农业科学,2014,41(9):203-206.
[11]Davis S L,Dukes M D.Methodologies for Successful Implementation of Smart Irrigation Controllers[J].Journal of Irrigation and Drainage Engineering,2014,141(3):1-9.
[12]谢家兴,王卫星,陆华忠,等.基于CC2530的荔枝园智能灌溉系统设计[J].灌溉排水学报,2014,33(Z1):189-194.
[13]李合青,来智勇,张鑫.基于ZigBee的温室智能灌溉执行子系统的设计与实现[J].农机化研究,2014,36(1):95-98+107.
[14]黄勇,张玉建,钱建峰,等.基于专家系统的南通地区稻田自动灌溉系统应用[J].中国农村水利水电,2014(8):12-14.
[15]贾艳玲,刘思远.基于ZigBee技术的葡萄园智能灌溉系统设计[J].江苏农业科学,2015,43(6):383-385.
[16]Remini B,Achour B,Kechad R.The Foggara:A Traditional System of Irrigation In Arid Regions[J].GeoScience Engineering,2015,60(2):30-37.
[17]Eldeiry A A,Waskom R M,Elhaddad A.Using Remote Sensing to Estimate E7apotranspiration of Irrigated Crops Under Flood and Sprinkler Irrigation Systems[J].Irrigation and Drainage,2016,65(1):85-97.
[18]Meysam A.Field evaluation of centre pivot sprinkler irrigation system in the North-East of Iran[J].Journal of Water and Land Development,2017,34(1):1-9.
[19]索滢,王忠静.典型节水灌溉技术综合性能评价研究[J].灌溉排水学报,2018,37(11):113-120.
[20]陈际旭,徐淑琴,周豪.基于萤火虫算法的滴灌管网优化设计研究[J].灌溉排水学报,2018,37(9):48-55.
[21]汪朝晖,张振峰.SM2椭圆曲线公钥密码算法综述[J].信息安全研究,2016,2(11):972-982.
[2]黎啟江,王祥宁,张倩.远程无线传感器技术在智能灌溉监控中的应用[J].农机化研究,2010,32(3):182-188.
[3]戴菲菲,彭力.基于ZigBee网络和D-S数据融合的灌溉系统设计[J].计算机研究与发展,2011,48(S2):350-354.
[4]周振峰,张伟.基于WSN与嵌入式组态软件的智能灌溉系统[J].浙江农业科学,2011(2):438-441.
[5]杜云明,盖丽娜,颜兵兵.基于单片机的温室灌溉控制系统设计[J].农机化研究,2012,34(12):88-91.
[6]Yu J M,Barradas M,Matula S,et al.A Decision Support System-FertIgat-Ion Simulator(DSS-FS)for designand optimization of sprinkler and dripirrigation systems[J].Computers and Electronics in Agriculture,2012,86:111-119.
[7]纪文义,张继成,郑萍,等.基于无线网络的农田灌溉智能监测系统[J].农机化研究,2013,35(10):171-173.
[8]Mohan J R.Design of Level Basin Irrigation Systems for Robust Performance[J].Journal of Irrigationand Drainage Engineering,2013,139(3):254-260.
[9]王永涛,陈思璇,李家春,等.基于无线数据传输的智能化节水灌溉控制系统研究[J].节水灌溉,2014(10):92-96.
[10]邓晓栋,翁绍捷.基于Android平台的智能水肥灌溉系统设计[J].广东农业科学,2014,41(9):203-206.
[11]Davis S L,Dukes M D.Methodologies for Successful Implementation of Smart Irrigation Controllers[J].Journal of Irrigation and Drainage Engineering,2014,141(3):1-9.
[12]谢家兴,王卫星,陆华忠,等.基于CC2530的荔枝园智能灌溉系统设计[J].灌溉排水学报,2014,33(Z1):189-194.
[13]李合青,来智勇,张鑫.基于ZigBee的温室智能灌溉执行子系统的设计与实现[J].农机化研究,2014,36(1):95-98+107.
[14]黄勇,张玉建,钱建峰,等.基于专家系统的南通地区稻田自动灌溉系统应用[J].中国农村水利水电,2014(8):12-14.
[15]贾艳玲,刘思远.基于ZigBee技术的葡萄园智能灌溉系统设计[J].江苏农业科学,2015,43(6):383-385.
[16]Remini B,Achour B,Kechad R.The Foggara:A Traditional System of Irrigation In Arid Regions[J].GeoScience Engineering,2015,60(2):30-37.
[17]Eldeiry A A,Waskom R M,Elhaddad A.Using Remote Sensing to Estimate E7apotranspiration of Irrigated Crops Under Flood and Sprinkler Irrigation Systems[J].Irrigation and Drainage,2016,65(1):85-97.
[18]Meysam A.Field evaluation of centre pivot sprinkler irrigation system in the North-East of Iran[J].Journal of Water and Land Development,2017,34(1):1-9.
[19]索滢,王忠静.典型节水灌溉技术综合性能评价研究[J].灌溉排水学报,2018,37(11):113-120.
[20]陈际旭,徐淑琴,周豪.基于萤火虫算法的滴灌管网优化设计研究[J].灌溉排水学报,2018,37(9):48-55.
[21]汪朝晖,张振峰.SM2椭圆曲线公钥密码算法综述[J].信息安全研究,2016,2(11):972-982.