%0 Journal Article
%T 一种面向城市洪涝灾害防御的智慧水利云平台设计模式
A Design Pattern of Smart Water Management Cloud Platform for Flood Disaster Prevention in Urban
%A 严锡君
%A 马辉
%A 黄炜
%A 严林波
%A 张荣成
%A 邓荣春
%J Computer Science and Application
%P 219-225
%@ 2161-881X
%D 2023
%I Hans Publishing
%R 10.12677/CSA.2023.132022
%X 推进智慧水利建设是“十四五”时期水利保障国家水安全的重点举措之一。在简要导读有关智慧水利政策,简要介绍和分析智慧水利中数字新基建及新一代信息技术的领域运用基础上,本文以数字新基建技术在智慧水利中综合型创新应用的视角开展研究,与现有的水利业务驱动的智慧水利应用技术体系构建策略不同,提出和构建一种以“广域覆盖的全要素状态监测感知”、“数据智能”为技术核心驱动的智慧水利应用技术体系。在此技术体系框架下,按照基础设施、大数据中心、应用支撑、业务应用的分层级设计思想,提出一种面向城市洪涝灾害防御的智慧水利云平台设计模式,为洪涝灾害防御信息化平台开发中总体架构设计提供一种基本的设计遵循。
Promoting the construction of smart water management is one of the key measures to ensure the national water security during the 14th Five-Year Plan period. Based on a brief introduction to the policy of smart water management, a brief introduction and analysis to the application of new digital infrastructure construction and new generation of information technology in smart water man-agement, by conducting research from the perspective of comprehensive innovative application of digital new infrastructure technologies in smart water management, and different from the existing construction strategies of smart water management application technology system driven by water conservancy business, this paper proposes and constructs a kind of smart water management application technology system driven by “all-factor state monitoring perception for wide area coverage” and “data intelligent” as the technology core. Under the framework of this technical system, according to the hierarchical design idea of infrastructure, big data center, application support and business application, a design model of the smart water management cloud platform for flood disaster prevention in urban is proposed. It provides a basic design compliance for the overall architecture design of flood disaster prevention information platform development.
%K 智慧水利,数字新基建,洪涝灾害防御,应用体系,平台
Smart Water Management
%K New Digital Infrastructure Construction
%K Flood Disaster Prevention
%K Application System
%K Platform
%U http://www.hanspub.org/journal/PaperInformation.aspx?PaperID=61294