Bilateral integrated system for 21st Century Water Resource Management
As we realized that precipitation distribution, debris, inundation and water pollution have been influentially effected to our economic and society. In this decade, frequency and degree of damage from such phenomena were obviously increased. Since individual water management project could not suffice to dissolve these complex problems, bilateral integrated system was introduced to relief the situation. Tangibility of this research project was aimed to monitor and minimize hydro-disasters and their consequences. Public domain system will be the major strategy in order to develop and produce interactive integrated system. Output and outcome through technical system (real time tele-metering system, precipitation cascade analysis, API analysis and international standard metadata will be destined through data assimilation, flow simulation/scenario analysis, water quality analysis and dynamic spatial dissemination) is directly interacted by user interface system (stakeholders, operators and researches) and capacity building. Accuracy and ability were inspected through field experiment and evaluation. This system is successfully illustrated on the prototype area of the Chaophraya river basin.
public domain hydroinformatic interactive bilateral
Hansa VATHANANUKIJ Tanapatay DUSIT
Water Resource Engineering Department,Faculty of Engineering,Kasetsart University,50 Paholyothin Rd. Electrical Engineering Department,Faculty of Engineering,Kasetsart University,50 Paholyothin Rd.,Ban
国际会议
The Four Conference of Asia Pacific Association of Hydrology and Water Resources(亚太地区水文水资源协会第4届科学大会)
北京
英文
412-418
2008-11-03(万方平台首次上网日期,不代表论文的发表时间)