Citation: | LI Jie, WANG Ming-wu, LONG Jing-yun, JIN Ju-liang. A COMPREHENSIVE CONNECTION CLOUD MODEL BASED ON GAME THEORY FOR EVALUATION OF WATER EUTROPHICATION[J]. ENVIRONMENTAL ENGINEERING , 2021, 39(6): 192-197. doi: 10.13205/j.hjgc.202106029 |
[1] |
陈昭明,王伟,赵迎,等.三峡水库支流水体富营养化现状及防治策略[J].环境工程,2019,37(4):32-37.
|
[2] |
武暕,冯承莲,李延东,等.桓仁水库富营养化风险预测预警[J].环境工程,2017,35(4):125-128.
|
[3] |
DODDS W K,BOUSKA W W,EITZMANN J L,et al.Eutrophication of U.S.Freshwaters:analysis of potential economic damages[J].Environmental Science & Technology,2009,43(1):12-19.
|
[4] |
FERREIRA J G,ANDERSEN J H,BORJA A,et al.Over view of eutrophication indicators to assess environmental status within the European marine strategy framework directive[J].Estuarine Coastal & Shelf Science,2011,93(2):117-131.
|
[5] |
石永强,左其亭,窦明.小型景观湖泊眉湖水质分析及富营养化评价[J].水电能源科学,2016,34(7):32-36.
|
[6] |
全栋,史小红,赵胜男,等.2006-2017年乌梁素海夏季水体营养状态及影响因子[J].湖泊科学,2019,31(5):1259-1267.
|
[7] |
鲍广强,尹亮,余金龙,等.基于综合营养状态指数和BP神经网络的黑河富营养化评价[J].水土保持通报,2018,32(1):264-269.
|
[8] |
苏畅,沈志良,姚云,等.长江口及其邻近海域富营养化水平评价[J].水科学进展,2008,19(1):99-105.
|
[9] |
王志强,田娜,缪建群,等.基于组合可拓综合分析法的鄱阳湖流域水质富营养化评价[J].生态学报,2017,37(12):4227-4235.
|
[10] |
林同云,袁兴中,唐清华,等.熵权集对分析模型应用于湖泊富营养化评价[J].环境工程,2014,32(11):141-145.
|
[11] |
孔宪喻,苏荣国.基于支持向量机的黄东海富营养化快速评价技术[J].中国环境科学,2016,36(1):143-148.
|
[12] |
智国铮,陈耀宁,袁兴中,等.基于延拓盲数的洞庭湖湖泊综合营养状态评价模型[J].中国环境科学,2013,33(11):2095-2101.
|
[13] |
汪明武,周天龙,叶晖,等.基于联系云的地下水水质可拓评价模型[J].中国环境科学,2018,38(8):3035-3041.
|
[14] |
崔东文,郭荣.基于混沌闪电搜索算法-最大熵投影寻踪模型的区域水安全评价[J].华北水利水电大学学报(自然科学版),2017,38(3):17-26.
|
[15] |
LIU Q Y,WANG M W,ZHOU T L,et al.A connection cloud model coupled with extenics for water eutrophication evaluation[J].Earth Science Informatics,2019,12(4):659-669.
|
[16] |
曾德彪,王栋,丁昊,等.水体富营养化评价的多维正态云法与其他几种方法的对比分析[J].南京大学学报(自然科学),2015,51(1):67-72.
|
[17] |
LI D Y,HAN J W,SHI X M,et al.Knowledge representation and discovery based on linguistic atoms[J].Knowledge-Based Systems,1998,10(7):431-440.
|
[18] |
汪明武,金菊良.联系数理论与应用[M].北京:科学出版社,2017.
|
[19] |
RAMALINGAM S.Mathematical programming and game theory[J].Journal of Statistical Computation and Simulation,2020,90(3):570-570.
|
[20] |
王坚强,刘淘.基于综合云的不确定语言多准则群决策方法[J].控制与决策,2012,27(8):1185-1190.
|
[21] |
陈藜藜,金腊华.湖库富营养化的改进型模糊综合评价方法研究[J].中国环境科学,2014,34(12):3223-3229.
|
[22] |
耿志伟,薛伟,王海滨,等.基于改进物元可拓法的东北林区贮木场火险评估[J].中国安全科学学报,2019,29(6):90-96.
|
[23] |
吴易雯,李莹杰,张列宇,等.基于主客观赋权模糊综合评价法的湖泊水生态系统健康评价[J].湖泊科学,2017,29(5):1091-1102.
|
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