[1] |
ALI A M,SHAFIEE M E,BERGLUND E Z. Agent-based modeling to simulate the dynamics of urban water supply:climate,population growth,and water shortages[J]. Sustainable Cities and Society,2017(28):420-434. |
[2] |
CUERVA L G,BERGLUND E Z,BINDER A R. Public perceptions of water shortages,conservation behaviors,and support for water reuse in the U.S.[J]. Resources,Conservation and Recycling,2016(113):106-115. |
[3] |
NOIVA K,FERNANDEZ J E,WESCOAT J L. Cluster analysis of urban water supply and demand:toward large-scale comparative sustainability planning[J]. Sustainable Cities and Society,2016(27):484-496. |
[4] |
AIT-AOUDIA M N,BEREZOWSKA-AZZAG E. Water resources carrying capacity assessment:the case of Algeria's capital city[J]. Habitat International,2016(58):51-58. |
[5] |
VIJAYALAKSMI D P,BABU K S J. Water supply system demand forecasting using adaptive neuro-fuzzy inference system[J]. Aquatic Procedia,2015(4):950-956. |
[6] |
GAIN A K,GIUPPONI C. A dynamic assessment of water scarcity risk in the lower Brahmaputra river basin:an integrated approach[J]. Ecological Indicators,2015(48):120-131. |
[7] |
GOHARI A,ESLAMIAN S,MIRCHI A,et al. Water transfer as a solution to water shortage:a fix that can backfire[J]. Journal of Hydrology,2013(491):23-39. |
[8] |
BAGUMA D,HASHIM J H,ALJUNID S M,et al. Safe-water shortages,gender perspectives,and related challenges in developing countries:the case of Uganda[J]. Science of the Total Environment,2013(442):96-102. |
[9] |
LAM K L,KENWAY S J,LANT P A. Energy use for water provision in cities[J]. Journal of Cleaner Production,2017(143):699-709. |
[10] |
KARNITIS E,KARNITIS G,ZUTERS J,et al. Modelling of water supply costs[J]. Procedia Computer Science,2017(104):3-11. |
[11] |
任怡,王义民,畅建霞,等. 陕西省水资源供求指数和综合干旱指数及其时空分布[J]. 自然资源学报,2017,32(1):137-151. |
[12] |
陈英,唐晶,邱晓娜. 民勤水资源短缺的农户感知:现状、特征与影响[J]. 干旱区资源与环境,2017,31(6):14-19. |
[13] |
范琳琳,王红瑞,刘凤丽,等. 基于WEI+的流域水资源短缺分析[J]. 长江科学院院报,2017,34(4):9-14. |
[14] |
童绍玉,周振宇,彭海英. 中国水资源短缺的空间格局及缺水类型[J]. 生态经济,2016,32(7):168-173. |
[15] |
张中旺,周萍. 基于主成分分析的襄阳市水资源短缺风险评价[J]. 中国农学通报,2016,32(2):92-98. |
[16] |
龚艳冰,刘高峰,冯兰萍,等. 江苏省水资源短缺风险的相似云评价方法研究[J]. 长江流域资源与环境,2015,24(6):931-936. |
[17] |
钱龙霞,张韧,王红瑞,等. 基于MEP和DEA的水资源短缺风险损失模型及其应用[J]. 水利学报,2015,46(10):1199-1206. |
[18] |
周永军. 基于DDEPM方法的北京水资源短缺预测[J]. 统计与决策,2015(3):62-64. |
[19] |
刘丽萍,唐德善. 水资源短缺与社会适应能力评价及耦合协调关系分析[J]. 干旱区资源与环境,2014(6):13-19. |
[20] |
廖强,张士锋,陈俊旭. 北京市水资源短缺风险等级评价与预测[J]. 资源科学,2013,35(1):140-147. |
[21] |
梁媛,许新宜,王红瑞,等. 基于循环修正模式的云南省水资源短缺程度分析[J]. 自然资源学报,2013,28(7):1146-1158. |
[22] |
蔡文. 物元模型及其应用[M]. 北京:科学技术文献出版社,1994:8:3-32. |
[23] |
YUAN Y,SHENG H,SHI H. Research on evaluation system of internet venture capital project based on matter-element method[J]. International Journal of Hybrid Information Technology,2016,9(9):393-410. |
[24] |
MARTINS J H C,SANTOS N C,FIGUEIRA P,et al. Reflected light from giant planets in habitable zones:tapping into the power of the Cross-Correlation Function[J]. Origins of Life and Evolution of Biospheres,2016,46(4):487-498. |
[25] |
王宇飞,盖美,耿雅冬. 辽宁沿海经济带水资源短缺风险评价[J]. 地域研究与开发,2013(2):96-102. |
[26] |
王崴,许新宜,王红瑞,等. 基于PSR与DCE综合模型的水资源短缺程度及变化趋势分析[J]. 自然资源学报,2015,30(10):1725-1734. |
[27] |
PAWLAK Z. Rough sets[J]. International Journal of Parallel Programming,1982,11(5):341-356. |
[28] |
MOSTAFAEI H,KORDNOORI S,KORDNOORI S. Using weighted Markov SCGM (1,1) c model to forecast gold/oil,DJIA/gold and USD/XAU ratios[J]. Malaysian Journal of Fundamental and Applied Sciences,2017,12(4):138-142. |
[29] |
鲍超. 中国城镇化与经济增长及用水变化的时空耦合关系[J]. 地理学报,2015,69(12):1799-1809. |
[30] |
张凤泽,宋敏,邓益斌. 新型城镇化视角下的江苏省水资源利用效率研究[J]. 水利经济,2016,34(5):14-17. |
[31] |
马海良,徐佳,王普查. 中国城镇化进程中的水资源利用研究[J]. 资源科学,2014,36(2):334-341. |