Decision support system of regional water resources

被引:0
作者
Zhu C. [1 ]
Hao Z. [2 ]
机构
[1] College of Urban Construction, Hebei University of Engineering, Handan
[2] State Key Laboratory of Hydrology-Water Resources and Hydraulic Engineering, Hohai University
关键词
Decision support system; Decision-making variable deduction; Handan; Water resources;
D O I
10.4304/jsw.6.11.2300-2307
中图分类号
学科分类号
摘要
It is very important to dispose the water resources rationally. Rational disposition of water resources is the nucleus of sustainable water resources utilization, and is the important way to solve the district water resource shortage and raises utilization efficiency of water resource. A decision-making variable model is established by groundwater, surface water and precipitation. Water resources managing decision support system in handan is developed on the language of visual basic, with the usage of database-access and the map-object GIS groups. And the system has the functions including managing function of data and files and editing function of images. During the model built, idea of decision-making variable deduction is adopted to transform three kinds of water to get the results of sustainable utilization of water resources. Finally Visual software is programmed Using GIS and VB language, and the rational blue print of water resources in this region can be decided applying optimized model. The system plays an important role in the water resources management. © 2011 ACADEMY PUBLISHER.
引用
收藏
页码:2300 / 2307
页数:7
相关论文
共 22 条
[1]  
Zhang Y.Q., Miao Q.L., Calculation and prediction of regional water resources, Scientia Geographoca Sinica, 21, 3, pp. 457-462, (2001)
[2]  
Dong J., Li S.Q., Mao W.B., Study on the regional carrying capacity and optimization of water resources, China Rural water and Hydropower, 11, pp. 77-80, (2007)
[3]  
Costa L.F.S.B., Control of water use in north-west Portugal (Spain), Dissertation Abstracts International, 79, 7, pp. 156-180, (2001)
[4]  
Jiberman R., Deferent approaches to assessment of design and management of sustainable urban water system, Environment Impact Assessment Review, 129, 3, pp. 333-345, (2000)
[5]  
Huang M.L., Study of optimal allocation model of regional water resource in sustainable development, Water Conservancy Science and Technology and Economy, 13, 9, pp. 661-662, (2007)
[6]  
Loucks D.P., Developing and implementing decision support systems a critique and a challenge, Water Resources Bulletin, 31, 4, pp. 571-582, (1995)
[7]  
Recio B., Iba'ez J., Rubio F., Et al., A decision support system for analyzing the impact of water restriction policies, Decision Support Systems, 39, pp. 385-402, (2005)
[8]  
Fassio A., Giupponi C., Hiederer R., Et al., A decision support tool for simulating the effects of alternative policies affecting water resources: An application at the European scale, Journal of Hydrology, 304, pp. 462-476, (2005)
[9]  
Ju Q., Yu Z., Hao Z., Chen X., She C., Integration of artificial neural networks with a numerical groundwater model for simulating spring discharge [A], 4th International Conference on Intelligent Information Technoogy Application[C], 2, pp. 361-364, (2010)
[10]  
Yeh Y.L., Su M.D., Tsou I., Forecasting of groundwater level using grey modeling, J Taiwan Water Conservancy, 43, pp. 66-73, (1995)