LIU Ping,LIN Dan,REN Chao,et al.Modern Business System Design of Artificial WeatherModification in Sichuan Province[J].Journal of Chengdu University of Information Technology,2018,(03):281-285.[doi:10.16836/j.cnki.jcuit.2018.03.010]
四川省人工影响天气现代业务系统设计
- Title:
- Modern Business System Design of Artificial WeatherModification in Sichuan Province
- 文章编号:
- 2096-1618(2018)03-0281-05
- Keywords:
- artificial weather modification; business task; system design; business system; business application
- 分类号:
- TP311
- 文献标志码:
- A
- 摘要:
- 人工影响天气作为防灾减灾的有力手段,服务领域涉及各行各业。四川是一个干旱、冰雹、森林草原火险多发地区,着眼提高作业效益,建立一套适应服务需求的现代业务系统迫在眉睫。通过梳理业务任务,设计了业务系统流程及功能架构,简要介绍了业务系统各模块功能和实现的技术路线,分析了作业指标等关键技术业务应用。基于数据库技术,采用B/S、C/S及APP架构,应用GIS和信息网络技术建立了四川省人工影响天气现代业务系统,实现了需求分析、作业条件监测分析、作业方案设计、作业产品制作发布与实时指挥、信息采集、效益评估一体化的业务平台。业务运行表明,业务系统为省市县及作业点人工影响天气服务提供了有效的业务支撑,提高作业的科学性。
- Abstract:
- Artificial weather modification is used as a powerful means to prevent and mitigate natural disasters,and the field of its service covers all walks of life.Sichuan is a drought, hailstorm,forest grassland fire risk areas.It is urgent to focus on improving operational efficiency and establish a modern business system to meet the needs of the service.By combing the business tasks and processes,the functional architecture of the business system is designed,and the function of each module of the system is elaborated.The technical route of the business system is briefly introduced,and the key technology business applications such as operation index are analyzed in this paper.Based on database technology,by using B/S, C/S and APP architecture and applying GIS and information network technology,the modern business system of artificial weather modification in Sichuan province has been established. This system realizes the business platform of demand analysis,operation condition monitoring analysis,operation plan design,production and release of operation products and real-time command,information collection and benefit evaluation.Business operation shows that this business system provides effective business support for people in provinces and cities,and improves the scientific nature of the operation.
参考文献/References:
[1] 国家发改委与中国气象局共同印发.全国人工影响天气发展规划(2014-2020年)[Z].
[2] 周毓荃,张存.河南省新一代人工影响天气业务技术系统的设计、开发和应用[J].应用气象学报,2001,(S1):383-388.
[3] 袁野,杨光,李爱华,等.安徽省人工影响天气信息管理与作业指挥系统设计与开发[J].气象,2011,37(11):1459-1465.
[4] 邹书平,许弋,李玮,等.贵州省人工影响天气业务集成系统[J].贵州气象,2010,34(2):36-38.
[5] 许乐.吉林省人工影响天气作业指挥业务系统的设计研究[D].兰州:兰州大学,2014.
[6] 游积平,冯永基,何婉文,等.基于Web GIS技术的人工增雨指挥系统[J].气象科技,2010,38(4):405-509.
[7] 吴林林,刘黎平,徐海军,等.基于MICAPS 3核心的人影业务平台设计与开发[J].气象,2013,39(3):383-388.
[8] 耿蔚.四川省人工影响天气业务系统功能[J].高原山地气象研究,2012,32(2):91-94.
[9] 王英,常骏,李永利,等.内蒙古气象综合信息系统功能设计与实现方式[J].气象,2010,36(4):80-84.
[10] 刘平,周筠珺,张庆,等.西南地区飞机人工增雨跨区作业调度模型[J].气象科技,2016,44(5):811-815.
[11] 中国气象局.全国人工影响天气业务发展指导意见[Z].
[12] 郭学良.大气物理与人工影响天气[M].北京:气象出版社,2010:445-474.
[13] 中国气象局.人工影响天气业务现代化建设三年行动计划[Z].
[14] 刘晓璐,周长春.川西南山地冰雹雷达预警指标[J].气象科技,2016,44(2):252-258.
[15] 刘平,石立新.人影作业指挥与信息收集平台技术开发与推广[R].四川省科技成果档案馆,2011.
[16] 刘志,祁红彦,陈章,等.基于雷达产品的人工增雨作业指令实时计算软件[J].气象科技,2013,41(3):470-475.
[17] 田泽彬,陈章,刘平,等.多普勒雷达资料在四川省盆地地面人工增雨中的应用[J].四川师范大学学报(自然科学版),2011,34:226-228.
[18] 曾庆存.数值天气预报的数学物理基础[M].北京:科学出版社,1979:10-11.
[19] 中国气象局.人工增雨作业效果检验技术指南[Z].2016.
相似文献/References:
[1]贺文彬,罗俊颉,王 鹏,等.基于固体火箭和GPS测风技术的中低空气象探测系统关键技术研发与应用[J].成都信息工程大学学报,2018,(04):423.[doi:10.16836/j.cnki.jcuit.2018.04.012]
HE Wen-bin,LUO Jun-jie,WANG Peng,et al.Research and Application of Key Technology of Medium and Low AltitudeMeteorological Detection System based on Solid Rocket andGPS Wind Measurement Technology[J].Journal of Chengdu University of Information Technology,2018,(03):423.[doi:10.16836/j.cnki.jcuit.2018.04.012]
备注/Memo
收稿日期:2018-03-09基金项目:中国气象局气象关键技术集成与应用面上资助项目(CMAGJ 2015M51)