参考文献/References:
[1] Dawson R J, Speight L, Hall J W, et al. Attribution of flood risk in urban areas[J]. Journal of Hydroinformatics, 2008, 10(4): 275-288.
[2] TANG Chuan. Comments on study of urban hazard mitigation [J]. Yunnan Geographic Environment Research, 2003, 15(3): 1-6.(in Chinese)
唐川, 城市减灾研究综述[J]. 云南地理环境研究, 2003, 15(3): 1-6.
[3] MAO De-hua, WANG Li-hui. Diagnosis and assessment on vulnerability of the urban flood-waterlogged disaster in Hunan province[J]. Resources and Environment in The Yangtza Basin, 2002, 11(1): 89-93.(in Chinese)
毛德华, 王立辉. 湖南城市洪涝易损性诊断与评估[J]. 长江流域资源与环境, 2002, 11(1): 89-93.
[4] ZHU Cong, QIN Bei-lei, WANG Wen-sheng, et al. Study on classification and diagnosis of the urban flood-waterlogged vulnerability[J]. Yunnan Geographic Environment Research, 2005, 17(2): 15-18.(in Chinese)
朱聪, 秦蓓蕾, 王文圣. 城市洪涝易损性分类与诊断研究[J]. 云南地理环境研究, 2005, 17(2): 15-18.
[5] WANG Wen-sheng, JIN Ju-liang, DING Jing, et al. A new approach to water resources system assessment—set pair analysis method [J]. Science in China Series E: Technological Sciences, 2009, 52(10): 3017-3023.
[6] WANG Wen-sheng, LI Yue-qing, JIN Ju-liang, et al. Set Pair Analysis for Hydrology and Water Resources Systems[M]. Beijing: Science Press, 2010.(in Chinese)
王文圣, 李跃清, 金菊良, 等. 水文水资源集对分析[M]. 北京: 科学出版社, 2010.
[7] SUN Shun-li, ZHOU Ke-ping, HU Xiao-long. Mine eco-system stability assessment based on fractal theory[J]. Safety and Environmental Engineering, 2007, 14(4): 1-4.(in Chinese)
孙顺利, 周科平, 胡小龙. 基于分形理论的矿区生态系统稳定性评价[J]. 安全与环境工程, 2007, 14(4): 1-4.
[8] Grassberger P, Procaccia I. Measuring the strangeness of strange attractors[J], Physica D, 1983, 9: 189-208.
[9] Smith K. Environmental Hazards: Assessing Risk and Reducing Disaster[M]. 3th edition. London: Routledge, 2001.
[10] Hanssona K, Danielsona M, Ekenberg L. A framework for evaluation of flood management strategies[J]. Journal of Environmental Management, 2008(86): 465-480.
[11] WU Kai-ya, JIN Ju-liang, PAN Zheng-wei. Set pair analysis model based on triangle fuzzy intervals and its application to impact rating evaluation of urban flood[J]. Journal of Hydraulic Engineering, 2010, 41(6): 711-719.(in Chinese)
吴开亚, 金菊良, 潘争伟. 基于三角模糊数截集的联系数模型在城市涝灾影响等级评价中的应用[J]. 水利学报, 2010, 41(6): 711-719.
[12] CHENGQian-sheng.Attributerecognitiontheoreticalmodel with application[J]. Acta Scientiarum Naturalium Universitat is Pekinensis, 1997, 33(1): 12-20.(in Chinese)
程乾生. 属性识别理论模型及其应用[J]. 北京大学学报自然科学版, 1997, 33(1): 12-20.
[13] WANG Jia-yuan, YE Yin-chuan. Competitiveness assessment of regional construction industry based on principal components analysis[J]. Journal of Shenzhen University Science and Engineering, 2009, 26(1): 92-97.(in Chinese)
王家远, 叶银川. 主成分分析法评价地区建筑业竞争力[J]. 深圳大学学报理工版, 2009, 26(1): 92-97.
[14] Gabriele Villarini, James A Smith, Francesco Serinaldi, et al. Flood frequency analysis for nonstationary annual peak records in an urban drainage basin[J]. Advances in Water Resources, 2009(32): 1255-1266
[15] Jian Chen, Arleen A Hill, Lensyl D Urbano. A GIS-based model for urban flood inundation[J]. Journal of Hydrology, 2009, 373(1/2): 184-192.
[16] D S Fernández, M A Lutz. Urban flood hazard zoning in Tucumán Province, Argentina, using GIS and multicriteria decision analysis[J]. Engineering Geology, 2010, 111(1/2/3/4): 90-98.
[17] Inoue K, Kawaike K, Hayashi H. Numerical simulation models on inundation flow in urban area[J]. Journal of Hydroscience and Hydraulic Engineering, 2000, 18(1): 119-126 .