基于VS平台的引水工程可视化监测系统研究
|
摘要
针对引水工程中安全监测项目多、监测仪器分布范围广、运行工况复杂、需要实时对监测数据进行分析处理等特点,利用ArcGIS强大的地理信息处理能力和C#语言高效的编程功能,实现对引水工程地理信息和监测信息的可视化管理,利用VB语言构建灰色模型对监测数据进行建模分析预测,基于Visual Studio平台构建可视化监测系统。工程实例证明,该监测系统较好地实现引水工程的可视化、监测数据的查询及对数据的分析预测。结合数学相关理论建模能够有效地对监测系统进行分析预测。
Given many safety monitoring items,wide distribution of monitoring instruments,complex operation conditions and real-time data processing demand in these works,ArcGIS powerful geographic information processing ability and C# language efficient programming function were used to perform visual management of geographic and monitoring information; moreover,a gray model was established with VB language to model,analyze and predict the monitoring data,and then establish the visual monitoring system based on Visual Studio platform. It is proved by project cases that the monitoring system does well in visualization of diversion works with monitoring data inquiries and data analysis and prediction. The modeling in combination with related mathematical theory may carry out analysis and prediction on the monitoring system effectively.
Given many safety monitoring items,wide distribution of monitoring instruments,complex operation conditions and real-time data processing demand in these works,ArcGIS powerful geographic information processing ability and C# language efficient programming function were used to perform visual management of geographic and monitoring information; moreover,a gray model was established with VB language to model,analyze and predict the monitoring data,and then establish the visual monitoring system based on Visual Studio platform. It is proved by project cases that the monitoring system does well in visualization of diversion works with monitoring data inquiries and data analysis and prediction. The modeling in combination with related mathematical theory may carry out analysis and prediction on the monitoring system effectively.
引文
[1]徐世俊,冯仲林,于剑丽,等.中条山供水工程板涧河跨河建筑物设计[J].人民黄河,2001,23(4):12-14.XU S J,FENG Z L,YU J L,et al. Design of Banjian River crossing building for Zhongtiaoshan water supply project[J]. Yellow River,2001,23(4):12-14.
[2]彭虹.引水工程安全监测及其自动化[J].水电自动化与大坝监测,2006,30(5):1-4.PENG H. Safety monitoring of water diversion projects and its automation[J]. Hydropower Automation and Dam Monitoring,2006,30(5):1-4.
[3]白崇宇,黄铭,蔚清,等.基于Visual Studio平台的大坝安全监测系统构建与实现方法[J].水电能源科学,2013,31(4):164-166,197.BAI C Y,HUANG M,WEI Q,et al. Construction and implementation of dam safety monitoring system based on Visual Studio platform[J]. Water Resources and Power,2013,31(4):164-166,197.
[4]黄铭.数学模型与工程安全监测[M].上海:上海交通大学出版社,2008:122-129.HUANG M. Mathematical Models and Engineering Safety Monitoring[M].Shanghai:Shanghai Jiaotong University Press,2008:122-129.
[5]潘德利.预测性信息资源的开发方法[J].中国图书馆学报,2001,27(3):85-87.PAN D L. Development methods of predictive information resources[J]. The Journal of the Library Science in China,2001,27(3):85-87.
[6]郭敏,蓝金辉,李娟娟,等.基于灰色残差GM(1,N)模型的交通流数据恢复算法[J].交通运输系统工程与信息,2012,12(1):42-47.GUO M,LAN JH,LI JJ,et al. Traffic flow data recovery algorithm based on gray residual GM(1,N)model[J]. Journal of Transportation Systems Engineering and Information Technology,2012,12(1):42-47.
[7]杨晔,戴文战.基于灰色关联定权的迟滞GM(1,2)组合预测[J].浙江理工大学学报,2007,24(2):206-210.YANG Y,DAI WZ. GM(1,2)different time-lag model combined forecasting based on grey correlation fixed weight and its application[J]. Journal of Zhejiang Sci-Tech University,2007,24(2):206-210.
[8]范震,马开平,姜顺婕,等.基于改进GM(1,N)模型的我国大豆价格影响因素分析及预测研究[J].大豆科学,2016,35(5):847-852.FAN Z,MA K P,JIANG S J,et al. Influence factors analysis and price prediction of soybean in china based on improved GM(1,N)model[J].Soybean Science,2016,35(5):847-852.
[9]韩维娜,周少华.基于GM(1,2)残差模型的混凝土靶强度预测[J].科学技术与工程,2012,12(8):1950-1953.HAN W N,ZHOU S H. The concrete target strength forecast based on GM(1,2)residual error model[J]. Science Technology and Engineering,2012,12(8):1950-1953.
[10]刘超.临江岸坡安全监测信息系统开发及监控模型研究[D].合肥:合肥工业大学,2017:18-23.LIU C. Riverside bank slope safety monitoring information system development and monitoring model research[D]. Hefei:Hefei University of Technology,2017:18-23.
[11]张鹏,黄铭.海堤可视化监测系统开发与应用[J].水道港口,2014,35(6):637-641.ZHANG P,HUANG M. Development and application of seawall visual monitoring system[J]. Journal of Waterway and Harbor,2014,35(6):637-641.
[12]司春棣.引水工程安全保障体系研究[D].天津:天津大学,2007.SI C D. Study on safety control system of water diversion project[D].Tianjin:Tianjin University,2007.
[13]邵岩.考虑水体作用的渡槽动力响应计算[D].南京:河海大学,2006.SHAO Y. Computationon the dynamic response for aqueducts with consideration of water influence[D]. Nanjing:Hohai University,2006.
[2]彭虹.引水工程安全监测及其自动化[J].水电自动化与大坝监测,2006,30(5):1-4.PENG H. Safety monitoring of water diversion projects and its automation[J]. Hydropower Automation and Dam Monitoring,2006,30(5):1-4.
[3]白崇宇,黄铭,蔚清,等.基于Visual Studio平台的大坝安全监测系统构建与实现方法[J].水电能源科学,2013,31(4):164-166,197.BAI C Y,HUANG M,WEI Q,et al. Construction and implementation of dam safety monitoring system based on Visual Studio platform[J]. Water Resources and Power,2013,31(4):164-166,197.
[4]黄铭.数学模型与工程安全监测[M].上海:上海交通大学出版社,2008:122-129.HUANG M. Mathematical Models and Engineering Safety Monitoring[M].Shanghai:Shanghai Jiaotong University Press,2008:122-129.
[5]潘德利.预测性信息资源的开发方法[J].中国图书馆学报,2001,27(3):85-87.PAN D L. Development methods of predictive information resources[J]. The Journal of the Library Science in China,2001,27(3):85-87.
[6]郭敏,蓝金辉,李娟娟,等.基于灰色残差GM(1,N)模型的交通流数据恢复算法[J].交通运输系统工程与信息,2012,12(1):42-47.GUO M,LAN JH,LI JJ,et al. Traffic flow data recovery algorithm based on gray residual GM(1,N)model[J]. Journal of Transportation Systems Engineering and Information Technology,2012,12(1):42-47.
[7]杨晔,戴文战.基于灰色关联定权的迟滞GM(1,2)组合预测[J].浙江理工大学学报,2007,24(2):206-210.YANG Y,DAI WZ. GM(1,2)different time-lag model combined forecasting based on grey correlation fixed weight and its application[J]. Journal of Zhejiang Sci-Tech University,2007,24(2):206-210.
[8]范震,马开平,姜顺婕,等.基于改进GM(1,N)模型的我国大豆价格影响因素分析及预测研究[J].大豆科学,2016,35(5):847-852.FAN Z,MA K P,JIANG S J,et al. Influence factors analysis and price prediction of soybean in china based on improved GM(1,N)model[J].Soybean Science,2016,35(5):847-852.
[9]韩维娜,周少华.基于GM(1,2)残差模型的混凝土靶强度预测[J].科学技术与工程,2012,12(8):1950-1953.HAN W N,ZHOU S H. The concrete target strength forecast based on GM(1,2)residual error model[J]. Science Technology and Engineering,2012,12(8):1950-1953.
[10]刘超.临江岸坡安全监测信息系统开发及监控模型研究[D].合肥:合肥工业大学,2017:18-23.LIU C. Riverside bank slope safety monitoring information system development and monitoring model research[D]. Hefei:Hefei University of Technology,2017:18-23.
[11]张鹏,黄铭.海堤可视化监测系统开发与应用[J].水道港口,2014,35(6):637-641.ZHANG P,HUANG M. Development and application of seawall visual monitoring system[J]. Journal of Waterway and Harbor,2014,35(6):637-641.
[12]司春棣.引水工程安全保障体系研究[D].天津:天津大学,2007.SI C D. Study on safety control system of water diversion project[D].Tianjin:Tianjin University,2007.
[13]邵岩.考虑水体作用的渡槽动力响应计算[D].南京:河海大学,2006.SHAO Y. Computationon the dynamic response for aqueducts with consideration of water influence[D]. Nanjing:Hohai University,2006.
© 2004-2018 中国地质图书馆版权所有 京ICP备05064691号 京公网安备11010802017129号 地址:北京市海淀区学院路29号 邮编:100083 电话:办公室:(+86 10)66554848;文献借阅、咨询服务、科技查新:66554700 |