多目标模糊识别优化决策理论与应用研究
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摘要
复杂系统决策理论是当今系统科学研究的前沿领域,随机性和模糊性是复杂系统不确定的两大主要表现形式,模糊集理论的发展为决策科学提供了重要的理论与方法。本文首先概括分析了复杂系统优化决策研究现状,简要介绍了陈守煜教授创立的工程模糊集理论优化决策的基本原理和发展,以复杂水资源系统优化决策为主要研究背景,以工程模糊集理论为基础,就复杂系统多目标模糊识别优化决策理论与应用进行探讨,取得的主要研究成果如下:
(1).在陈守煜教授提出的模糊聚类循环迭代模型的基础上,提出了一种考虑聚类目标在不同类别具有不同目标权重的循环迭代模糊聚类算法,避免了模糊C均值聚类算法引入模糊加权指数带来的聚类不确定性,其聚类结果是超球的,克服了欧氏距离只能聚类球状数据的缺陷,对多种分布类型的数据均有良好的聚类效果;提出样本目标值残缺情况下的三种等效聚类算法,可使残缺数据样本有效地参加聚类,减少样本数据残缺对聚类的影响;提出一种将已知样本的先验知识融合到模糊聚类过程中的半监督循环迭代聚类模型,较为有效地克服模糊聚类为无监督模糊识别存在的弱点。
(2).半结构性决策是多目标决策的难点,在工程模糊集单元系统决策理论基础上,认为决策者给出二元比较判断往往是不一致的,且对作出每个判断的把握程度也是不同的,提出在两阶段构造偏好关系矩阵基础上,将决策者对每个判断的把握程度作为可信度,以判断偏差最小平方法确定目标权重和方案优越度;在二元比较残缺可接受范围内,该模型可有效地处理判断信息残缺等情况的目标定权和方案优越度处理,给出了简易判断残缺模糊偏好矩阵为可接受的条件;建立一种将主、客观赋权综合的决策方案模糊识别模型,有效地融合主客观赋权信息,提高决策目标定权的准确性。
(3).在陈守煜教授提出的模糊模式识别模型基础上建立了决策信息不完全确知的多目标决策集成模型。该模型可综合处理权重信息不完全、分级标准不完全、方案集评价不完全、方案集目标不完全等决策信息不完全确知情况。丰富了模糊聚类、模糊模式识别、模糊决策统一理论。示例分析表明该模型具有物理概念明确、简便易用的特点。
(4).流域水资源丰富度是制定可持续发展规划的一项重要指标,在水资源丰富度评价中目标权重的确定是关键问题之一。在模糊模式识别模型的基础上,以专家经验、知识为监督,提出一种可同时确定评价目标权重和流域水资源丰富度的监督模糊模式识别模型,在辽西沿海9个流域水资源丰富度评价中取得较为满意的结果。
(5).群决策可以集结决策群体的智慧,是解决复杂系统决策问题的有效方法。如
何有效地将决策成员偏好模式结集成反映决策群体意愿的模式一直是群决策研究的热
点。在工程模糊集理论基础上,提出了三个层次进行群决策集结方法:加权平均法、群
决策权最小平方法和群决策监督模糊模式识别模型,分别从决策者二元比较判断平均、
决策者二元比较判断综合最优到考虑决策群体主、客观权重对决策方案进行综合模糊模
式识别进行优化决策,以适应不同的决策环境。
(6).多目标动态规划经常涉及到定性、定t目标,在陈守煌教授提出模糊优选动
态规划的基础上,对定性、定量目标统一的相对优属度进行了进一步探讨,提出了适合
定性目标递推的定性目标二元比较递推法和各阶段决策方案分组综合确定法两种定性目
标相对优属度确定方法,将主、客观权重综合的模糊模式识别与动态规划模型结合,拓
展了陈守煌教授提出的动态规划级别特征值法和阶段递推法。
最后对全文作了总结,并对有待进一步研究的问题作了分析和展望。
Complex systems decision theory is one of the heading fields in the research of system science, and randomness and fuzziness are the main behaving forms of uncertainties existed in complex systems. Fuzzy set theory offers crucial theory and methodology for decision making science. The research status of complex systems decision making is generalized first, then the principle and development of engineering fuzzy set theory proposed by Professor Chen Shouyu is briefly reviewed. With the background of complex water resources systems optimization and decision and on the basis of engineering fuzzy set theory, multiobjective fuzzy recognition, optimization and decision theory for complex systems and applications are investigated, and the main research results are listed, as followed.
(1) Founded upon the cross iterative clustering fuzzy algorithm (CIFCA) proposed by Professor Chen Shouyu, a CIFCA algorithm, with the consideration of the weights of the objects to clustered attributed to different clusters, is presented first, which tries to avoid the clustering uncertainties produced by the fuzzy weighted parameter in the FCM algorithm. With hyperspherical clustering results, it can partition different distribution type data with fine clustering results. Then, three equivalent clustering algorithms are provided for the dataset with fragmentary samples, which decreases the influence of incomplete data on clustering. At last, a semi-supervised cross iterative fuzzy clustering algorithm, with the integration of transcendental knowledge into clustering, is proposed, which can effectively handle the weakness of unsupervised fuzzy recognition.
(2) Semi-structural decision making is a difficulty of multiobjective decision making. The pairwise comparison provided by the decision makers is frequently inconsistent, and the reliability of each judgment is different. Based on engineering fuzzy set element system decision making theory and the preference matrix constructed through two steps, the objective weights and schema's superiority are determined via the method of the least squared errors with the consideration of the reliability of decision makers' judgment. Within the acceptable range of incomplete pairwise comparison, the proposed model can specify the objective weights and schema's superiority under the condition of incomplete judgment information, and the conditions, which can simply judge incomplete fuzzy preference matrix acceptable or not, are given. A fuzzy recognition model is constructed, which can effectively integrate subjective and objective weights and promote the precision of the weight assessment.
(3) On the basis of the fuzzy pattern recognition model proposed by Professor Chen
Shouyu,, a integrated multiobjective decision making model with incomplete decision making information is established, which can handle different kinds of decision making environment, such as incomplete weights, incomplete ranking standards incomplete judgment of the scheme set, incomplete objectives of the scheme set, etc. Experimental analysis shows that this model has a feature of clear physical concept and simple application.
(4) The abundance degree of basin water resources is a significant index in the establishment of sustainable development planning, and the weight assessment is one of the key problems in the evaluation of the abundance degree of water resources. Grounded upon the fuzzy pattern recognition model, under the supervision of experts' experience and knowledge, a supervised fuzzy pattern recognition model, which can simultaneously determine the objective weights and the abundance degree of basin water resources, is presented, and has a satisfactory result in the evaluation of the abundance degree of Liaoxi basin water resources.
(5) With the intelligence of a group of decision makers, group decision making is a effective method for complex systems decision making problems. The method for effectively integrating the preference of each decision maker into the group preference is a hotspot in the research of gro
(1).在陈守煜教授提出的模糊聚类循环迭代模型的基础上,提出了一种考虑聚类目标在不同类别具有不同目标权重的循环迭代模糊聚类算法,避免了模糊C均值聚类算法引入模糊加权指数带来的聚类不确定性,其聚类结果是超球的,克服了欧氏距离只能聚类球状数据的缺陷,对多种分布类型的数据均有良好的聚类效果;提出样本目标值残缺情况下的三种等效聚类算法,可使残缺数据样本有效地参加聚类,减少样本数据残缺对聚类的影响;提出一种将已知样本的先验知识融合到模糊聚类过程中的半监督循环迭代聚类模型,较为有效地克服模糊聚类为无监督模糊识别存在的弱点。
(2).半结构性决策是多目标决策的难点,在工程模糊集单元系统决策理论基础上,认为决策者给出二元比较判断往往是不一致的,且对作出每个判断的把握程度也是不同的,提出在两阶段构造偏好关系矩阵基础上,将决策者对每个判断的把握程度作为可信度,以判断偏差最小平方法确定目标权重和方案优越度;在二元比较残缺可接受范围内,该模型可有效地处理判断信息残缺等情况的目标定权和方案优越度处理,给出了简易判断残缺模糊偏好矩阵为可接受的条件;建立一种将主、客观赋权综合的决策方案模糊识别模型,有效地融合主客观赋权信息,提高决策目标定权的准确性。
(3).在陈守煜教授提出的模糊模式识别模型基础上建立了决策信息不完全确知的多目标决策集成模型。该模型可综合处理权重信息不完全、分级标准不完全、方案集评价不完全、方案集目标不完全等决策信息不完全确知情况。丰富了模糊聚类、模糊模式识别、模糊决策统一理论。示例分析表明该模型具有物理概念明确、简便易用的特点。
(4).流域水资源丰富度是制定可持续发展规划的一项重要指标,在水资源丰富度评价中目标权重的确定是关键问题之一。在模糊模式识别模型的基础上,以专家经验、知识为监督,提出一种可同时确定评价目标权重和流域水资源丰富度的监督模糊模式识别模型,在辽西沿海9个流域水资源丰富度评价中取得较为满意的结果。
(5).群决策可以集结决策群体的智慧,是解决复杂系统决策问题的有效方法。如
何有效地将决策成员偏好模式结集成反映决策群体意愿的模式一直是群决策研究的热
点。在工程模糊集理论基础上,提出了三个层次进行群决策集结方法:加权平均法、群
决策权最小平方法和群决策监督模糊模式识别模型,分别从决策者二元比较判断平均、
决策者二元比较判断综合最优到考虑决策群体主、客观权重对决策方案进行综合模糊模
式识别进行优化决策,以适应不同的决策环境。
(6).多目标动态规划经常涉及到定性、定t目标,在陈守煌教授提出模糊优选动
态规划的基础上,对定性、定量目标统一的相对优属度进行了进一步探讨,提出了适合
定性目标递推的定性目标二元比较递推法和各阶段决策方案分组综合确定法两种定性目
标相对优属度确定方法,将主、客观权重综合的模糊模式识别与动态规划模型结合,拓
展了陈守煌教授提出的动态规划级别特征值法和阶段递推法。
最后对全文作了总结,并对有待进一步研究的问题作了分析和展望。
Complex systems decision theory is one of the heading fields in the research of system science, and randomness and fuzziness are the main behaving forms of uncertainties existed in complex systems. Fuzzy set theory offers crucial theory and methodology for decision making science. The research status of complex systems decision making is generalized first, then the principle and development of engineering fuzzy set theory proposed by Professor Chen Shouyu is briefly reviewed. With the background of complex water resources systems optimization and decision and on the basis of engineering fuzzy set theory, multiobjective fuzzy recognition, optimization and decision theory for complex systems and applications are investigated, and the main research results are listed, as followed.
(1) Founded upon the cross iterative clustering fuzzy algorithm (CIFCA) proposed by Professor Chen Shouyu, a CIFCA algorithm, with the consideration of the weights of the objects to clustered attributed to different clusters, is presented first, which tries to avoid the clustering uncertainties produced by the fuzzy weighted parameter in the FCM algorithm. With hyperspherical clustering results, it can partition different distribution type data with fine clustering results. Then, three equivalent clustering algorithms are provided for the dataset with fragmentary samples, which decreases the influence of incomplete data on clustering. At last, a semi-supervised cross iterative fuzzy clustering algorithm, with the integration of transcendental knowledge into clustering, is proposed, which can effectively handle the weakness of unsupervised fuzzy recognition.
(2) Semi-structural decision making is a difficulty of multiobjective decision making. The pairwise comparison provided by the decision makers is frequently inconsistent, and the reliability of each judgment is different. Based on engineering fuzzy set element system decision making theory and the preference matrix constructed through two steps, the objective weights and schema's superiority are determined via the method of the least squared errors with the consideration of the reliability of decision makers' judgment. Within the acceptable range of incomplete pairwise comparison, the proposed model can specify the objective weights and schema's superiority under the condition of incomplete judgment information, and the conditions, which can simply judge incomplete fuzzy preference matrix acceptable or not, are given. A fuzzy recognition model is constructed, which can effectively integrate subjective and objective weights and promote the precision of the weight assessment.
(3) On the basis of the fuzzy pattern recognition model proposed by Professor Chen
Shouyu,, a integrated multiobjective decision making model with incomplete decision making information is established, which can handle different kinds of decision making environment, such as incomplete weights, incomplete ranking standards incomplete judgment of the scheme set, incomplete objectives of the scheme set, etc. Experimental analysis shows that this model has a feature of clear physical concept and simple application.
(4) The abundance degree of basin water resources is a significant index in the establishment of sustainable development planning, and the weight assessment is one of the key problems in the evaluation of the abundance degree of water resources. Grounded upon the fuzzy pattern recognition model, under the supervision of experts' experience and knowledge, a supervised fuzzy pattern recognition model, which can simultaneously determine the objective weights and the abundance degree of basin water resources, is presented, and has a satisfactory result in the evaluation of the abundance degree of Liaoxi basin water resources.
(5) With the intelligence of a group of decision makers, group decision making is a effective method for complex systems decision making problems. The method for effectively integrating the preference of each decision maker into the group preference is a hotspot in the research of gro
引文
[1].钱学森,于景元,戴汝为.一个新的学科领域—开放的复杂原系统及其方法论.自然杂志.1990,1:3~10.
[2].VonBertalanfry,L.一般系统论基础、发展、应用.北京:清华大学出版社,1987.
[3].申农.通讯的数学理论,上海:上海市科学技术编译馆,1965.
[4].维纳.人与人的用处,北京:商务印书馆,1978.
[5].普里高津等,曾庆宏译.从混沌到有序.上海:上海译文出版社,1987.
[6].宋毅,何国祥.耗散结构论.北京,中国展望出版社,1986.
[7].哈肯.高等协同学.北京:科学出版社,1989.
[8].哈肯.协同学:理论与应用.北京:科学出版社,1990.
[9].哈肯.协同计算机认知:神经网络的自上而下方法.北京:清华大学出版社,1994.
[10].M.艾肯.超循环论.上海:上海译文出版社,1990.
[11]. E.Borel. Probilite'et certitude, Paris, France Universitaires de France, 1950.
[12].钟开莱著,刘文等译.概率论教程.上海:上海科学技术出版社,1989.
[13].周概容.概率论与数理统计.北京:高等教育出版社,1984.
[14]. L.A.Zadeh. Similarity relations and fuzzy orderings. Inf Sci 1971 ,(3): 177~200.
[15]. L.A.Zadeh. Fuzzy sets and systems. System Theory. Brooklyn, NY:Polytechnic.
[16]. L.A.Zadeh. Fuzzysets, Inf Sci, 1965,(8):338~353.
[17]. L.A. Zadeh. The concept of linguistic variable and its application to approximate reasoning, Inform. Sci. 1975,(89):43-80,199-249, 301-357.
[18].刘应明,梁基华.Fuzzy拓扑—层次结构和点式处理.数学进展,1999,23:304~321.
[19].刘旺全,何家儒.模糊数学导论.成都:四川教育出版社,1992.
[20].汪培庄.模糊集与随机集落影.北京:北京经济学院出版社,1989.
[21].乔光,王光远.模糊随机规划理论.北京:科学出版社,1996.
[22].张跃,王光远.模糊随机动力系统理论.北京:科学出版社,1993.
[23].吴从祈.模糊分析学基础.北京:国防工业出版社,1989.
[24].陈埏.决策分析.北京:科学出版社,1987.
[25]. Von Nrumann J, Morgenstem O. Theory of Games and Economic Behavior. Princeron. NJ:Princeton Univ. Press, 1944.
[26]. Scott Morton M S, Management decision systems. In: computer Based Support foe Decision Making. Division of Research, Harvard University, Cambridge, Massachusetts, 1971,13~80.
[27]. Konsynski B, Sprague R H. Future Research directions in model management. Decision Support Systems,.1986,(2):42~53
[28].陈德军.基于数据仓库的OLAP在DSS中的应用研究,计算机工程与应用,2003(1):30~31
[29].魏世孝,周献中.多属性决策理论方法及其在C~3I系统中的应用.北京:国防工业出版社,1998
[30].李登峰.模糊多目标多人决策与对策.北京:国防工业出版社,1998.
[31]. Bouthnnier V, Levis A H. Effectiveness analysis of C3 System. IEEE Tran. On SNC,1984,14(1): 135~148.
[32]. A methodology to find overall system effectiveneSS in a multicriterion environment using surface to air missile weapon systems as an example, AD A109549. 1981.
[33].徐安德.关于现代军事武器系统效能评定的研究,导弹与航天运载技术,1994,(4):1~6
[34].萧元星,毛和瑞,田棣华.地面防空武器系统效能模型,系统工程理论与实践,1997,(5).94-98.
[35].徐瑞恩,海军C~4ISR系统效能定量分析,装备指挥技术学院学报,2002,13(5):1~5.
[36].廖良才,陈英武,万自明.扩展防空导弹C~3I系统作战效能评估方法研究,系统工程理论与实践.2002,(10):100~107.
[37].李宗吉,王树宗.武器装备系统效能评估的几种方法,海军工程大学学报,2001(1):97~101.
[38]. PetriC.A. Communication with automata [PhD thesis] Translated by C.F. Green. Information system Theory Project New York: Applied Data Research Inc Princeton, 1966.
[39]. X.F. Zha. An object-oriented knowledge based Petri net approach to intelligent integration of design and assembly planning. Artificial Intelligence in Engineering ,2000,(14) 83~112.
[40]. Hanna M.M,Buck A, Smith R. Fuzzy Petri Nets with Neural Networks to Model Products Quality from a CNCMillings Machining Centre. IEEE Trans. On SMC-Part A,1996,26(5):638~645.
[41].吴陈.泛化Petri网及其在C~3I系统分析中的应用,华东船舶工业学院学报,1999,13(1):13~18.
[42].李赣湘,杨成梧.基于模糊神经Petri网的C~3I信息融合模型.系统工程与电子技术,1998,(12):85~88.
[43]. Saaty T. The analytic hierarchy process: planning, priority setting, 1980, Resource allocation, New York: McGraw-Hill.
[44]. Charnes A, Cooper W.W, Rhodes E. Measuring efficiency of decision-making units. Euro.J.Oper.Res., 1978(2):429~444.
[45]. Rovithakis George A. Adaptive control of unknow plants unsing dynamical neural networks. IEEE Trans on SMC, 1994,24(3):400~411.
[46]. Li Lushu,Lai K.K. Fuzzy dynamic programming approach to hybrid multiobjective multistage decision- making programs, Fuzzy Sets and System. 2001,117(1): 13~25.
[47]. Michalewicz Z. Genetic algorithms + Data structure = evolution program. Springer, 1992
[48]. Mohd Sharif, Robin Wardlaw. Multireservoir systems optimization using genetic algorithms: case study. Journal of Computing in Civil Engineering, 2000,14(4): 255~263
[49]. Robin Wardlaw, Mohd Sharif. Evaluation of genetic algorithms for optimal reservoir system operation. Journal of Water Resources Planning and Management. 1999, 125(1): 25~33
[50]. Evaluation of genetic algorithms for optimal reservoir system operation. Journal of Water Resources Planning and Management. 1999, 125(1): 25~33
[51].赵振字.徐用懋.模糊理论和神经网络的基础与应用,北京:清华大学出版社,广西科学技术出版社,1996.
[52]. Boozarjomehry R.B, Svrcek W.Y. Automatic design of neural network structures. Comput and Chem Eng, 2001,25:1075~1088.
[53].金菊良,丁晶.遗传算法及其在水科学中的应用.成都:四川大学出版社,2000.
[54]. D. Kardaras, B. Karakostas. The use of fuzzy cognitive maps to simulate the information systems strategic planning process. Information and Software Technology, 1999,(41): 197~210.
[55].王建明,汪德虎.模糊优选神经网络决策模型与射击方案优选.射击学报,2002,1:1~3.
[56]. Chen Shouyu. Multiobjective decision-making theory and application of neural network with fuzzy optimum selection. The Journal of Fuzzy Mathematics, 1998, 6(4).
[57]. Chen Shouyu, Nie Xiangtian. Forecasting model of neural network with fuzz, pattern recognition and evolutionary simplex method. The Journal of Fuzzy Mathematics, 1999,7(4):913-923.
[58].陈守煜,于义彬,马用祥.松花江流域蓄滞洪区方案优选智能决策研究.大连理工大学学报,2003,43(3):362~366.
[59].陈守煜,王大刚.基于遗传算法的模糊优选BP网络模型及其应用.水利学报,2003,(5):116~121.
[60].王众托.“复杂水资源系统优化模糊模式识别理论与应用”书评.大连理工大学学报,2003,43(3):256
[61].陈守煜.系统模糊决策理论与应用.大连:大连理工大学出版社,1994
[62].陈守煜.模糊水文学与水资源系统模糊优化原理.大连:大连理工大学出版社,1989
[63].陈守煜.复杂水资源系统优化模糊识别理论与应用.长春:吉林大学出版社,2002
[64]. Zadeh LA. Fuzzy sets. Inform. Contr. 1965, 8: 338~353.
[65].汪培庄.模糊集合论及其应用.上海科学技术出版社,1983.
[66].陈守煜.相对隶属函数的系统辨证论哲学基础,系统辨证学学报,1996(2):23~26.
[67].陈守煜.论绝对隶属度及其确定,大自然探索,1995(2):17~21.
[68].陈守煜.易图的系统辩证思维剖析,系统辩证学学报,1997,(4):28~31.
[69].陈守煜.系统互补性决策思维渊源的论证.系统辩证学学报,2002,10(1):13~15
[70].陈守煜.工程模糊集理论与应用.北京:国防工业出版社,1998.
[71].傅京孙.模式识别及其应用,北京,科学出版社,1990.
[72]. R.C.Gonzalez, M.G Thomason, Syntactic Pattern Recognition. 幞群等译,句法模式识别,北京,清华大学出版社,1984.
[73].杜文吉,谢维信.基于证据理论的模式识别算法,西安电子科技大学学报,1999,26(4):533~536.
[74].王时标,姚振兴.未确知系统的模糊模式识剔.模糊系统与数学,1998,12(3):75~84.
[75].陈守煜.模糊识别、决策与聚类理论模型.模糊系统与数学,1991(2):34~37.
[76]. Chen Shouyu. Relative membership function and new frame of fuzzy sets theory for pattern recognition. The Journal of Fuzzy Mathematics, 1997.5(2):401~411.
[77].陈守煜.模糊模式识别交叉迭代模型与收敛性.大连理工大学学报2001年03期.
[78].陈守煜.模糊模式识别迭代模型及在优选水电装机中的应用.水利学报,2001,(5):11~16
[79].王建明,汪德虎,陈守煜.武器系统综合效能模糊识别模型.火力指挥与控制,2003,28(3):15~19.
[80].熊德琪,殷佩海.多阶段系统多目标优化的模糊优选动态规划方法及应用.中国工程科学,2000,2(9):65~69.
[81]. J.F. Baldwin, B.W, Pilswoth, Dynamic programming for fuzzy systems with fuzzy environment, Journal of Mathematical Analysis and Applications. 1992, (85):1~23.
[82]. Yuji Yoshida. A Time-average fuzzy reward criterion in fuzzy decision processes. Information Sciences, 1998,(110): 103~112.
[83].陈守煜.多阶段多目标决策系统模糊优选理论及其应用.水利学报,1990,(1):1~10
[84].陈守煜.水资源系统多目标多阶段模糊优选理论与技术.水科学进展,1990,1(1):33~43.
[85].陈守煜.伏广涛,王建明.复杂系统模糊模式识别动态规划模型及在水资源分配中的应用,水科学进展,2002.13(6):689~695.
[86].苏波,王浣尘.群决策研究的评述,决策与决策支持系统.1995,5(3):115~124. .
[87]. BacharachMGroupDeclslonslntheFaceofDlfferenceolOplmon, ManagCmentsclence, 1975,(22):1127~1136.
[88].王诺,王众托.一种新的网络计划方法:群体网络计划技术,大连理工大学学报,1997,37(1):112~117.
[89]李登峰.复杂模糊系统多层次多目标多人决策理论模型方法与应用研究.大连理工大学博士学位论文,1995.
[90]. Wang Jianming, Chen Shouyu, Fu Guangtao et'al. Group Decision Making-based Fuzzy Pattern Recognition Model for Lectotype Optimization of Offshore Platforms. An International Journal China Ocean Engineering. 2003,23 (1): 1~10.
[91].王建明,童幼堂,李登峰等.群决策监督模糊模式识别模型.控制与决策2002,17(s):672~675.
[92].王建明,童幼堂.多指标群决策模糊识别优选模型.系统工程2002,增刊4~7.
[93]. J.C.Bezdek. Fuzzy mathematics in pattern classification. Ph.D. dissertation, Comell University, Ithaca, NY
[94]. J.C.Bezdek. A physical interpretation of fuzzy ISODATA. IEEE Trans.Syst.Man Cybern.1976, 6:387~390
[95]. J.C.Bezdek, R.J.Hathaway, M.J.Sabin,et al. Convergence theory for fuzzy c-means: Counter-examples
and repairs. IEEE Trans.Syst.Man Cybern. 1987,17(5): 873~877.
[96]. N.R.Pal, J.C.Bezdek. On cluster validity for the fuzzy C-means model, IEEE Trans .Fuzzy Systems, 1995,3(3):370~379.
[97].高新波,裴继红,谢维信.模糊C-均值聚类算法中加权指数m的研究.电子学报,2000,28(4):80~83.
[98]. J.C.Bezdek. Cluster validity with fuzzy sets. J.Cybernet 1974,3(3):58~72
[99]. J.C.Bezdek. Pattern Recognition with fuzzy objective function algorithms. New York: Plenum, 1981
[100]. Windham, M.P. Cluster validity for fuzzy clustering algorithms. Fuzzy Set and Systems 1981,(5):177~185
[101]. Windham, M.P. Cluster validity for fuzzy c-means clustering algorithms. IEEE Trans. Pattern Anal. Machine Intell. 1982,4(4):357~363
[102]. Libert, G. Roubens,M, New experimental results in cluster validity of fuzzy clustering algorithms. New Trends in Data Analysis and Applications. The Netherlands 1983.
[103]. Xuanli Lisa Xie, Gerardo Beni. A Validity Measure for Fuzzy Clustering. IEEE Trans. PAMI, 1991,13(8): 841~847
[104]. Bensaid, etc. Validity Guided clustering with applications to image segmentation. IEEE Trans. Fuzzy Systems 1996,4:112~123.
[105]. N.Zahid, O.Abouelala, M.Limour. Unsupersided fuzzy clustering. Pattern Recognition Letters 1999,20:123~129.
[106].范九伦.基于包含度的聚类有效性函数.西安邮电学院学报,1999,4(1):84~86.
[107]. W.Zangwill. Nonlinear programming: A Unified Approach. Englewood Cliffs, New Jerseg: Prentice-Hall, 1969, Ch.4.
[108].李登峰,陈守煜.多目标优化问题的模糊交叉算法与收敛性.应用数学,1997,10(3):107~109.
[109].张志华,郑南宁,史罡.极大熵聚类算法及其全局收敛性分析.中国科学(E)2001,31(1):59~70.
[110]. Anderson.E. The irises of the Gaspe Peninsula. Bull Amer. Iris Soc, 1935 59,2~5.
[111]. J.C.Bezdek, J.Hathaway. Optimality Tests for fixed points of the fuzzy C-means algorithm. Pattern Recognition, 1988.21(6): 651~663.
[112]. Hathaway RJ, Davenport JW, Bezdek JC. Relational duals of the c-means clustering algorithms. Pattern Recognition, 1989,22(2):205~212
[113]. Yang MS, Pan JA. On fuzzy clustering of directional data. Fuzzy Sets and Systems, 1997,91(3):319~326.
[114].高新波,范九伦,谢维信.区间值数据模糊 C-均值聚类新算法.西安电子科技大学学报,1999,26(5):604~609.
[115].张兴芳,孟广武.基于模糊数模糊集的聚类分析.北华大学学报(自然科学版),2000,1(5):374~376.
[116]. J. K. Dixon, Pattern recognition with partly missing data. IEEE Transactions on Systems, Man, and Cybernetics, 1979(9): 617~621.
[117]. C. Z. Janikow. Fuzzy decision trees: Issues and methods. I IEEE Transactions on Systems, Man, and Cybernetics, 1998,28(1):1~14.
[118]. Witold Pedrycz et al. Fuzzy Clustering with Partial Supervision. IEEE Transactions on Systems, Man, and Cybernetics, 1997,27(5):787~795.
[119]. N.Zahid, O.Abouelala, M.Limouri etal. Unsupervised fuzzy clustering. Pattern Recognition Letter 1999,20:123~129.
[120]. Kie B.Eom. Unsupervised segmentation of spaceborne passive radar images. 1999,20:485~494.
[121]. Wang Jianming, Chen Shouyu, Wang Dehu, Huang Xiancheng. A Fuzzy Threat-Judgment Model for Air Targets The 5th International Conference on Optimization: Techniques and Applications:195~202.(ICOTA 2001, HongKong)
[122].周晓阳,张勇传.洪水的分类预测及优化调度.水科学进展,1997,8(2):123~129
[123].欧春平.智能算法在流域洪水预报系统建模中的应用及其软件集成体系.大连理工大学硕士论文.2001.6.
[124].徐泽水.广义模糊—致性矩阵及其排序方法.解放军理工大学学报,2000.1(6):97~99.
[125].姜艳萍,樊治平.一种用于模糊判断矩阵排序的X~2方法.东北大学学报(自然科学版),2000,21(5):573~575.
[126].樊治平,李洪燕,胡国奋.一类Fuzzy判断矩阵及方案排序的目标规划方法.东北大学学报(自然科学版),2000,21 (1):60~62.
[127]. Jiang YP,FanZP, WangXR. Alagrange multiplier ranking method for the fuzzy judgement matrix. 2001 International Conference of Management Science&Engineering. Haerbin, China,2001.
[128]. ChiclanaF,HerreraF, Herrera-ViedmaE. Integrating three representation models in fuzzy multipurpose decision making based on fuzzy preferen cerelations. Fuzzy Sets and Systems, 1998,97:33~48.
[129].王莲芬,许树伯.层次分析法引论,北京:中国人民大学出版社,1990,175~225.
[130].王应明,傅国伟.关于层次分析法中权的最小平方法的理论证明.系统工程理论与实践,1995,15(1):3~8.
[131].樊治平,姜艳萍.肖四汉.模糊判断矩阵的一致性及其性质.控制与决策,2001,16(1):69~71.
[132].陈守煜.防洪调度系统半结构决策理论与方法.水利学报,2001.11
[133].陈守煜.防洪调度多目标决策理论与模型.中国工程科学,2000,2(2):47~52.
[134].姚敏,黄燕君.模糊决策方法研究.系统工程理论与实践,1999,19(11):61~64.
[135].王应明,傅国伟.关于层次分析法中权的最小平方法的理论证明.系统工程理论与实践,1995,15(1):3~8.
[136]. Chen Shouyu, Fu Guangtao, Wang Jianming,etal. A Fuzzy Optimum Model of Semi-structural Decisions for Lectotype optimization of Offshore Platforms. An International Journal China Ocean Engineering. 2001,21 (4):453~466.
[137].王建明,童幼堂.作战仿真系统模糊优选模型.系统工程与电子技术.2002.24(12):40~42.
[138].王建明,陈守煜.权监督多级模糊优选模型.运筹与管理.2002.3:1~4.
[139]. Komaragiri Srinivasa Raju, C.R.S. Pillai. Multicriterion decision making in performance evaluation of an irrigation system. European Journal of Operational Research, 1999,(112): 479~488.
[140].陈守煜,赵瑛琪.模糊优选理论与模型.模糊系统与数学,1990,4(2):87~91
[141].唐克.目标的熵权模糊决策.系统工程理论与实践,1992,12(5):68~72
[142].陈守煜.区域水资源可持续利用评价理论模型与方法.中国工程科学,2001,3(2):33~38.
[143]. Dengfeng Li. Fuzzy multiattribute decision-making models and methods with incomplete preference information. Fuzzy Sets and Systems 1999,106:113~119.
[144].李登峰,程春田,陈守煜.部分信息不完全的多目标决策方法.控制与决策,1998,13(1):83~86.
[145].姜宁,李登峰.不完全信息多属性决策的集成模型与方法.系统工程与电子技术,2001,23(2):71~73
[146].廖貅武,唐焕文.基于不完全信息的一种群决策方法.大连理工大学学报.2002,42(1):122~126.
[147].徐泽水.求解不确定型多属性决策问题的一种新方法.系统工程学报.2002,17(2):177~181.
[148]. Wang Jianming, Chen Shouyu. A Fuzzy Threat-Judgment Model for Air Targets. ICOTA HongKong 2001, 195~202
[149].高彦春,刘昌明.区域水资源开发利用阈限分析.水利学报,1997,(8):73~79.
[150].陈守煜,王建明,伏广涛.决策信息不完全确知的模糊决策集成模型.控制与决策 2002,17(6):845~851.
[151].陈守煜.论21世纪水资源开发利用的河海协同原理.大连理工大学学报,2003,43(6):1~4.
[152].田锡堂.流域水资源丰富度评价的灰色聚类分析.经济地理,1996,2:215~220
[153].郑成德.流域水资源丰富度评价的模糊综合评判.地理学与国土研究,1998,14(1):42~46
[154].黄奕龙,董志颖,杨建强.流域水资源丰富度评价的突变评判模型.国土与自然资源研究,2001,1:15~18.
[155].杨建强,罗先香.流域水资源丰富度评价的自组织神经网络模型,地理学与国土研究,2000,16(2):45~47.
[156].陈守煜,王建明.流域水资源丰富度监督模糊模式识别.水资源保护,2002,2:1~4.
[157].王建明,陈守煜,伏广涛.监督模糊模式识别交叉迭代模型.模糊系统与数学,2003,17(3):101~106.
[158].柴小青.一种基于专家模糊偏好集结的群决策方法.系统工程与电子技术,1998,3:32~35
[159]. Arrow KJ. Social Choice and Individual Values. 2nd ed. New Haven:Yale University Oress, 1963.
[160]. Bergson A. Essays in Normative Economics. Massachusetts: Harvard University Press, 1966.
[161]. Soung Hie Kim, Byeong Seok Ahn. Interactive group decision making procedure under incomplete information. European Journal of Operational Research 116 (1999) 498~507.
[162]. Huey-Ming Lee. Group decision making using fuzzy sets theory for evaluating the rate of aggregation risk in software development. Fuzzy Sets and System, 1996(80):261~271.
[163]. Herrera F, et al. A model of conseensus in group decision making under linguistic assessments[J]. Fuzzy Sets and System, 1996(78):73~87.
[164]. Herrera F, et al. Direct approach processes in group decision making using linguistic OWA operators. Fuzzy Sets and System, 1996(79): 175~190.
[165].孟波.有限方案模糊多目标群决策方法的研究.系统工程,1995,13(4):43-46.
[166].孟波,付微.一种有限方案多目标群决策方法.系统工程,1998,16(4):57-61.
[167].胡毓达,田川.求解群体多指标决策问题的偏爱度法.系统工程理论与实践,1996(3):52~56.
[168].宋光兴,邹平.多属性群决策中决策者权重的确定方法.系统工程,2001,19(4):84~89.
[169].程启月.邱菀华.群决策与个体决策的一致性分析.中国管理科学,2001,9(5):32~37.
[170]. R.E. Bellman, S.E. Dreyfus, Applied Dynamic Programming, Princeton University Press, Princeton, 1962.
[171]. Bellman.R. Dynamic Programming, Princeton University Press, 1957.
[172].李维铮,郭耀煌,甘应爱等.运筹学,北京:清华大学出版社.1982.
[173]. R.E. Bellman, L.A. Zadeh, Decision-making in a fuzzy environment, Management Sci. 1970,17:141~164.
[174].陈守煜,赵瑛琪.系统层次分析模糊优选模型.水利学报,1988,(10):1~10.
[175]. Cheng Chuntian. Fuzzy optimal model for the flood control system of the upper and middle reaches of the Yangtze River. Hydrological Sciences Journal, 1999,44 (4):573~582.
[176].崔振才,郭林华,田文苓.水资源系统模糊优化多维动态规划模型与应用.水科学进展,2000,(6):186~193.
[177].陈守煜,马建琴,邱林.多维多目标模糊优选动态规划及其在农业灌溉中的应用.水利学报,2002,(4):33~38.
[2].VonBertalanfry,L.一般系统论基础、发展、应用.北京:清华大学出版社,1987.
[3].申农.通讯的数学理论,上海:上海市科学技术编译馆,1965.
[4].维纳.人与人的用处,北京:商务印书馆,1978.
[5].普里高津等,曾庆宏译.从混沌到有序.上海:上海译文出版社,1987.
[6].宋毅,何国祥.耗散结构论.北京,中国展望出版社,1986.
[7].哈肯.高等协同学.北京:科学出版社,1989.
[8].哈肯.协同学:理论与应用.北京:科学出版社,1990.
[9].哈肯.协同计算机认知:神经网络的自上而下方法.北京:清华大学出版社,1994.
[10].M.艾肯.超循环论.上海:上海译文出版社,1990.
[11]. E.Borel. Probilite'et certitude, Paris, France Universitaires de France, 1950.
[12].钟开莱著,刘文等译.概率论教程.上海:上海科学技术出版社,1989.
[13].周概容.概率论与数理统计.北京:高等教育出版社,1984.
[14]. L.A.Zadeh. Similarity relations and fuzzy orderings. Inf Sci 1971 ,(3): 177~200.
[15]. L.A.Zadeh. Fuzzy sets and systems. System Theory. Brooklyn, NY:Polytechnic.
[16]. L.A.Zadeh. Fuzzysets, Inf Sci, 1965,(8):338~353.
[17]. L.A. Zadeh. The concept of linguistic variable and its application to approximate reasoning, Inform. Sci. 1975,(89):43-80,199-249, 301-357.
[18].刘应明,梁基华.Fuzzy拓扑—层次结构和点式处理.数学进展,1999,23:304~321.
[19].刘旺全,何家儒.模糊数学导论.成都:四川教育出版社,1992.
[20].汪培庄.模糊集与随机集落影.北京:北京经济学院出版社,1989.
[21].乔光,王光远.模糊随机规划理论.北京:科学出版社,1996.
[22].张跃,王光远.模糊随机动力系统理论.北京:科学出版社,1993.
[23].吴从祈.模糊分析学基础.北京:国防工业出版社,1989.
[24].陈埏.决策分析.北京:科学出版社,1987.
[25]. Von Nrumann J, Morgenstem O. Theory of Games and Economic Behavior. Princeron. NJ:Princeton Univ. Press, 1944.
[26]. Scott Morton M S, Management decision systems. In: computer Based Support foe Decision Making. Division of Research, Harvard University, Cambridge, Massachusetts, 1971,13~80.
[27]. Konsynski B, Sprague R H. Future Research directions in model management. Decision Support Systems,.1986,(2):42~53
[28].陈德军.基于数据仓库的OLAP在DSS中的应用研究,计算机工程与应用,2003(1):30~31
[29].魏世孝,周献中.多属性决策理论方法及其在C~3I系统中的应用.北京:国防工业出版社,1998
[30].李登峰.模糊多目标多人决策与对策.北京:国防工业出版社,1998.
[31]. Bouthnnier V, Levis A H. Effectiveness analysis of C3 System. IEEE Tran. On SNC,1984,14(1): 135~148.
[32]. A methodology to find overall system effectiveneSS in a multicriterion environment using surface to air missile weapon systems as an example, AD A109549. 1981.
[33].徐安德.关于现代军事武器系统效能评定的研究,导弹与航天运载技术,1994,(4):1~6
[34].萧元星,毛和瑞,田棣华.地面防空武器系统效能模型,系统工程理论与实践,1997,(5).94-98.
[35].徐瑞恩,海军C~4ISR系统效能定量分析,装备指挥技术学院学报,2002,13(5):1~5.
[36].廖良才,陈英武,万自明.扩展防空导弹C~3I系统作战效能评估方法研究,系统工程理论与实践.2002,(10):100~107.
[37].李宗吉,王树宗.武器装备系统效能评估的几种方法,海军工程大学学报,2001(1):97~101.
[38]. PetriC.A. Communication with automata [PhD thesis] Translated by C.F. Green. Information system Theory Project New York: Applied Data Research Inc Princeton, 1966.
[39]. X.F. Zha. An object-oriented knowledge based Petri net approach to intelligent integration of design and assembly planning. Artificial Intelligence in Engineering ,2000,(14) 83~112.
[40]. Hanna M.M,Buck A, Smith R. Fuzzy Petri Nets with Neural Networks to Model Products Quality from a CNCMillings Machining Centre. IEEE Trans. On SMC-Part A,1996,26(5):638~645.
[41].吴陈.泛化Petri网及其在C~3I系统分析中的应用,华东船舶工业学院学报,1999,13(1):13~18.
[42].李赣湘,杨成梧.基于模糊神经Petri网的C~3I信息融合模型.系统工程与电子技术,1998,(12):85~88.
[43]. Saaty T. The analytic hierarchy process: planning, priority setting, 1980, Resource allocation, New York: McGraw-Hill.
[44]. Charnes A, Cooper W.W, Rhodes E. Measuring efficiency of decision-making units. Euro.J.Oper.Res., 1978(2):429~444.
[45]. Rovithakis George A. Adaptive control of unknow plants unsing dynamical neural networks. IEEE Trans on SMC, 1994,24(3):400~411.
[46]. Li Lushu,Lai K.K. Fuzzy dynamic programming approach to hybrid multiobjective multistage decision- making programs, Fuzzy Sets and System. 2001,117(1): 13~25.
[47]. Michalewicz Z. Genetic algorithms + Data structure = evolution program. Springer, 1992
[48]. Mohd Sharif, Robin Wardlaw. Multireservoir systems optimization using genetic algorithms: case study. Journal of Computing in Civil Engineering, 2000,14(4): 255~263
[49]. Robin Wardlaw, Mohd Sharif. Evaluation of genetic algorithms for optimal reservoir system operation. Journal of Water Resources Planning and Management. 1999, 125(1): 25~33
[50]. Evaluation of genetic algorithms for optimal reservoir system operation. Journal of Water Resources Planning and Management. 1999, 125(1): 25~33
[51].赵振字.徐用懋.模糊理论和神经网络的基础与应用,北京:清华大学出版社,广西科学技术出版社,1996.
[52]. Boozarjomehry R.B, Svrcek W.Y. Automatic design of neural network structures. Comput and Chem Eng, 2001,25:1075~1088.
[53].金菊良,丁晶.遗传算法及其在水科学中的应用.成都:四川大学出版社,2000.
[54]. D. Kardaras, B. Karakostas. The use of fuzzy cognitive maps to simulate the information systems strategic planning process. Information and Software Technology, 1999,(41): 197~210.
[55].王建明,汪德虎.模糊优选神经网络决策模型与射击方案优选.射击学报,2002,1:1~3.
[56]. Chen Shouyu. Multiobjective decision-making theory and application of neural network with fuzzy optimum selection. The Journal of Fuzzy Mathematics, 1998, 6(4).
[57]. Chen Shouyu, Nie Xiangtian. Forecasting model of neural network with fuzz, pattern recognition and evolutionary simplex method. The Journal of Fuzzy Mathematics, 1999,7(4):913-923.
[58].陈守煜,于义彬,马用祥.松花江流域蓄滞洪区方案优选智能决策研究.大连理工大学学报,2003,43(3):362~366.
[59].陈守煜,王大刚.基于遗传算法的模糊优选BP网络模型及其应用.水利学报,2003,(5):116~121.
[60].王众托.“复杂水资源系统优化模糊模式识别理论与应用”书评.大连理工大学学报,2003,43(3):256
[61].陈守煜.系统模糊决策理论与应用.大连:大连理工大学出版社,1994
[62].陈守煜.模糊水文学与水资源系统模糊优化原理.大连:大连理工大学出版社,1989
[63].陈守煜.复杂水资源系统优化模糊识别理论与应用.长春:吉林大学出版社,2002
[64]. Zadeh LA. Fuzzy sets. Inform. Contr. 1965, 8: 338~353.
[65].汪培庄.模糊集合论及其应用.上海科学技术出版社,1983.
[66].陈守煜.相对隶属函数的系统辨证论哲学基础,系统辨证学学报,1996(2):23~26.
[67].陈守煜.论绝对隶属度及其确定,大自然探索,1995(2):17~21.
[68].陈守煜.易图的系统辩证思维剖析,系统辩证学学报,1997,(4):28~31.
[69].陈守煜.系统互补性决策思维渊源的论证.系统辩证学学报,2002,10(1):13~15
[70].陈守煜.工程模糊集理论与应用.北京:国防工业出版社,1998.
[71].傅京孙.模式识别及其应用,北京,科学出版社,1990.
[72]. R.C.Gonzalez, M.G Thomason, Syntactic Pattern Recognition. 幞群等译,句法模式识别,北京,清华大学出版社,1984.
[73].杜文吉,谢维信.基于证据理论的模式识别算法,西安电子科技大学学报,1999,26(4):533~536.
[74].王时标,姚振兴.未确知系统的模糊模式识剔.模糊系统与数学,1998,12(3):75~84.
[75].陈守煜.模糊识别、决策与聚类理论模型.模糊系统与数学,1991(2):34~37.
[76]. Chen Shouyu. Relative membership function and new frame of fuzzy sets theory for pattern recognition. The Journal of Fuzzy Mathematics, 1997.5(2):401~411.
[77].陈守煜.模糊模式识别交叉迭代模型与收敛性.大连理工大学学报2001年03期.
[78].陈守煜.模糊模式识别迭代模型及在优选水电装机中的应用.水利学报,2001,(5):11~16
[79].王建明,汪德虎,陈守煜.武器系统综合效能模糊识别模型.火力指挥与控制,2003,28(3):15~19.
[80].熊德琪,殷佩海.多阶段系统多目标优化的模糊优选动态规划方法及应用.中国工程科学,2000,2(9):65~69.
[81]. J.F. Baldwin, B.W, Pilswoth, Dynamic programming for fuzzy systems with fuzzy environment, Journal of Mathematical Analysis and Applications. 1992, (85):1~23.
[82]. Yuji Yoshida. A Time-average fuzzy reward criterion in fuzzy decision processes. Information Sciences, 1998,(110): 103~112.
[83].陈守煜.多阶段多目标决策系统模糊优选理论及其应用.水利学报,1990,(1):1~10
[84].陈守煜.水资源系统多目标多阶段模糊优选理论与技术.水科学进展,1990,1(1):33~43.
[85].陈守煜.伏广涛,王建明.复杂系统模糊模式识别动态规划模型及在水资源分配中的应用,水科学进展,2002.13(6):689~695.
[86].苏波,王浣尘.群决策研究的评述,决策与决策支持系统.1995,5(3):115~124. .
[87]. BacharachMGroupDeclslonslntheFaceofDlfferenceolOplmon, ManagCmentsclence, 1975,(22):1127~1136.
[88].王诺,王众托.一种新的网络计划方法:群体网络计划技术,大连理工大学学报,1997,37(1):112~117.
[89]李登峰.复杂模糊系统多层次多目标多人决策理论模型方法与应用研究.大连理工大学博士学位论文,1995.
[90]. Wang Jianming, Chen Shouyu, Fu Guangtao et'al. Group Decision Making-based Fuzzy Pattern Recognition Model for Lectotype Optimization of Offshore Platforms. An International Journal China Ocean Engineering. 2003,23 (1): 1~10.
[91].王建明,童幼堂,李登峰等.群决策监督模糊模式识别模型.控制与决策2002,17(s):672~675.
[92].王建明,童幼堂.多指标群决策模糊识别优选模型.系统工程2002,增刊4~7.
[93]. J.C.Bezdek. Fuzzy mathematics in pattern classification. Ph.D. dissertation, Comell University, Ithaca, NY
[94]. J.C.Bezdek. A physical interpretation of fuzzy ISODATA. IEEE Trans.Syst.Man Cybern.1976, 6:387~390
[95]. J.C.Bezdek, R.J.Hathaway, M.J.Sabin,et al. Convergence theory for fuzzy c-means: Counter-examples
and repairs. IEEE Trans.Syst.Man Cybern. 1987,17(5): 873~877.
[96]. N.R.Pal, J.C.Bezdek. On cluster validity for the fuzzy C-means model, IEEE Trans .Fuzzy Systems, 1995,3(3):370~379.
[97].高新波,裴继红,谢维信.模糊C-均值聚类算法中加权指数m的研究.电子学报,2000,28(4):80~83.
[98]. J.C.Bezdek. Cluster validity with fuzzy sets. J.Cybernet 1974,3(3):58~72
[99]. J.C.Bezdek. Pattern Recognition with fuzzy objective function algorithms. New York: Plenum, 1981
[100]. Windham, M.P. Cluster validity for fuzzy clustering algorithms. Fuzzy Set and Systems 1981,(5):177~185
[101]. Windham, M.P. Cluster validity for fuzzy c-means clustering algorithms. IEEE Trans. Pattern Anal. Machine Intell. 1982,4(4):357~363
[102]. Libert, G. Roubens,M, New experimental results in cluster validity of fuzzy clustering algorithms. New Trends in Data Analysis and Applications. The Netherlands 1983.
[103]. Xuanli Lisa Xie, Gerardo Beni. A Validity Measure for Fuzzy Clustering. IEEE Trans. PAMI, 1991,13(8): 841~847
[104]. Bensaid, etc. Validity Guided clustering with applications to image segmentation. IEEE Trans. Fuzzy Systems 1996,4:112~123.
[105]. N.Zahid, O.Abouelala, M.Limour. Unsupersided fuzzy clustering. Pattern Recognition Letters 1999,20:123~129.
[106].范九伦.基于包含度的聚类有效性函数.西安邮电学院学报,1999,4(1):84~86.
[107]. W.Zangwill. Nonlinear programming: A Unified Approach. Englewood Cliffs, New Jerseg: Prentice-Hall, 1969, Ch.4.
[108].李登峰,陈守煜.多目标优化问题的模糊交叉算法与收敛性.应用数学,1997,10(3):107~109.
[109].张志华,郑南宁,史罡.极大熵聚类算法及其全局收敛性分析.中国科学(E)2001,31(1):59~70.
[110]. Anderson.E. The irises of the Gaspe Peninsula. Bull Amer. Iris Soc, 1935 59,2~5.
[111]. J.C.Bezdek, J.Hathaway. Optimality Tests for fixed points of the fuzzy C-means algorithm. Pattern Recognition, 1988.21(6): 651~663.
[112]. Hathaway RJ, Davenport JW, Bezdek JC. Relational duals of the c-means clustering algorithms. Pattern Recognition, 1989,22(2):205~212
[113]. Yang MS, Pan JA. On fuzzy clustering of directional data. Fuzzy Sets and Systems, 1997,91(3):319~326.
[114].高新波,范九伦,谢维信.区间值数据模糊 C-均值聚类新算法.西安电子科技大学学报,1999,26(5):604~609.
[115].张兴芳,孟广武.基于模糊数模糊集的聚类分析.北华大学学报(自然科学版),2000,1(5):374~376.
[116]. J. K. Dixon, Pattern recognition with partly missing data. IEEE Transactions on Systems, Man, and Cybernetics, 1979(9): 617~621.
[117]. C. Z. Janikow. Fuzzy decision trees: Issues and methods. I IEEE Transactions on Systems, Man, and Cybernetics, 1998,28(1):1~14.
[118]. Witold Pedrycz et al. Fuzzy Clustering with Partial Supervision. IEEE Transactions on Systems, Man, and Cybernetics, 1997,27(5):787~795.
[119]. N.Zahid, O.Abouelala, M.Limouri etal. Unsupervised fuzzy clustering. Pattern Recognition Letter 1999,20:123~129.
[120]. Kie B.Eom. Unsupervised segmentation of spaceborne passive radar images. 1999,20:485~494.
[121]. Wang Jianming, Chen Shouyu, Wang Dehu, Huang Xiancheng. A Fuzzy Threat-Judgment Model for Air Targets The 5th International Conference on Optimization: Techniques and Applications:195~202.(ICOTA 2001, HongKong)
[122].周晓阳,张勇传.洪水的分类预测及优化调度.水科学进展,1997,8(2):123~129
[123].欧春平.智能算法在流域洪水预报系统建模中的应用及其软件集成体系.大连理工大学硕士论文.2001.6.
[124].徐泽水.广义模糊—致性矩阵及其排序方法.解放军理工大学学报,2000.1(6):97~99.
[125].姜艳萍,樊治平.一种用于模糊判断矩阵排序的X~2方法.东北大学学报(自然科学版),2000,21(5):573~575.
[126].樊治平,李洪燕,胡国奋.一类Fuzzy判断矩阵及方案排序的目标规划方法.东北大学学报(自然科学版),2000,21 (1):60~62.
[127]. Jiang YP,FanZP, WangXR. Alagrange multiplier ranking method for the fuzzy judgement matrix. 2001 International Conference of Management Science&Engineering. Haerbin, China,2001.
[128]. ChiclanaF,HerreraF, Herrera-ViedmaE. Integrating three representation models in fuzzy multipurpose decision making based on fuzzy preferen cerelations. Fuzzy Sets and Systems, 1998,97:33~48.
[129].王莲芬,许树伯.层次分析法引论,北京:中国人民大学出版社,1990,175~225.
[130].王应明,傅国伟.关于层次分析法中权的最小平方法的理论证明.系统工程理论与实践,1995,15(1):3~8.
[131].樊治平,姜艳萍.肖四汉.模糊判断矩阵的一致性及其性质.控制与决策,2001,16(1):69~71.
[132].陈守煜.防洪调度系统半结构决策理论与方法.水利学报,2001.11
[133].陈守煜.防洪调度多目标决策理论与模型.中国工程科学,2000,2(2):47~52.
[134].姚敏,黄燕君.模糊决策方法研究.系统工程理论与实践,1999,19(11):61~64.
[135].王应明,傅国伟.关于层次分析法中权的最小平方法的理论证明.系统工程理论与实践,1995,15(1):3~8.
[136]. Chen Shouyu, Fu Guangtao, Wang Jianming,etal. A Fuzzy Optimum Model of Semi-structural Decisions for Lectotype optimization of Offshore Platforms. An International Journal China Ocean Engineering. 2001,21 (4):453~466.
[137].王建明,童幼堂.作战仿真系统模糊优选模型.系统工程与电子技术.2002.24(12):40~42.
[138].王建明,陈守煜.权监督多级模糊优选模型.运筹与管理.2002.3:1~4.
[139]. Komaragiri Srinivasa Raju, C.R.S. Pillai. Multicriterion decision making in performance evaluation of an irrigation system. European Journal of Operational Research, 1999,(112): 479~488.
[140].陈守煜,赵瑛琪.模糊优选理论与模型.模糊系统与数学,1990,4(2):87~91
[141].唐克.目标的熵权模糊决策.系统工程理论与实践,1992,12(5):68~72
[142].陈守煜.区域水资源可持续利用评价理论模型与方法.中国工程科学,2001,3(2):33~38.
[143]. Dengfeng Li. Fuzzy multiattribute decision-making models and methods with incomplete preference information. Fuzzy Sets and Systems 1999,106:113~119.
[144].李登峰,程春田,陈守煜.部分信息不完全的多目标决策方法.控制与决策,1998,13(1):83~86.
[145].姜宁,李登峰.不完全信息多属性决策的集成模型与方法.系统工程与电子技术,2001,23(2):71~73
[146].廖貅武,唐焕文.基于不完全信息的一种群决策方法.大连理工大学学报.2002,42(1):122~126.
[147].徐泽水.求解不确定型多属性决策问题的一种新方法.系统工程学报.2002,17(2):177~181.
[148]. Wang Jianming, Chen Shouyu. A Fuzzy Threat-Judgment Model for Air Targets. ICOTA HongKong 2001, 195~202
[149].高彦春,刘昌明.区域水资源开发利用阈限分析.水利学报,1997,(8):73~79.
[150].陈守煜,王建明,伏广涛.决策信息不完全确知的模糊决策集成模型.控制与决策 2002,17(6):845~851.
[151].陈守煜.论21世纪水资源开发利用的河海协同原理.大连理工大学学报,2003,43(6):1~4.
[152].田锡堂.流域水资源丰富度评价的灰色聚类分析.经济地理,1996,2:215~220
[153].郑成德.流域水资源丰富度评价的模糊综合评判.地理学与国土研究,1998,14(1):42~46
[154].黄奕龙,董志颖,杨建强.流域水资源丰富度评价的突变评判模型.国土与自然资源研究,2001,1:15~18.
[155].杨建强,罗先香.流域水资源丰富度评价的自组织神经网络模型,地理学与国土研究,2000,16(2):45~47.
[156].陈守煜,王建明.流域水资源丰富度监督模糊模式识别.水资源保护,2002,2:1~4.
[157].王建明,陈守煜,伏广涛.监督模糊模式识别交叉迭代模型.模糊系统与数学,2003,17(3):101~106.
[158].柴小青.一种基于专家模糊偏好集结的群决策方法.系统工程与电子技术,1998,3:32~35
[159]. Arrow KJ. Social Choice and Individual Values. 2nd ed. New Haven:Yale University Oress, 1963.
[160]. Bergson A. Essays in Normative Economics. Massachusetts: Harvard University Press, 1966.
[161]. Soung Hie Kim, Byeong Seok Ahn. Interactive group decision making procedure under incomplete information. European Journal of Operational Research 116 (1999) 498~507.
[162]. Huey-Ming Lee. Group decision making using fuzzy sets theory for evaluating the rate of aggregation risk in software development. Fuzzy Sets and System, 1996(80):261~271.
[163]. Herrera F, et al. A model of conseensus in group decision making under linguistic assessments[J]. Fuzzy Sets and System, 1996(78):73~87.
[164]. Herrera F, et al. Direct approach processes in group decision making using linguistic OWA operators. Fuzzy Sets and System, 1996(79): 175~190.
[165].孟波.有限方案模糊多目标群决策方法的研究.系统工程,1995,13(4):43-46.
[166].孟波,付微.一种有限方案多目标群决策方法.系统工程,1998,16(4):57-61.
[167].胡毓达,田川.求解群体多指标决策问题的偏爱度法.系统工程理论与实践,1996(3):52~56.
[168].宋光兴,邹平.多属性群决策中决策者权重的确定方法.系统工程,2001,19(4):84~89.
[169].程启月.邱菀华.群决策与个体决策的一致性分析.中国管理科学,2001,9(5):32~37.
[170]. R.E. Bellman, S.E. Dreyfus, Applied Dynamic Programming, Princeton University Press, Princeton, 1962.
[171]. Bellman.R. Dynamic Programming, Princeton University Press, 1957.
[172].李维铮,郭耀煌,甘应爱等.运筹学,北京:清华大学出版社.1982.
[173]. R.E. Bellman, L.A. Zadeh, Decision-making in a fuzzy environment, Management Sci. 1970,17:141~164.
[174].陈守煜,赵瑛琪.系统层次分析模糊优选模型.水利学报,1988,(10):1~10.
[175]. Cheng Chuntian. Fuzzy optimal model for the flood control system of the upper and middle reaches of the Yangtze River. Hydrological Sciences Journal, 1999,44 (4):573~582.
[176].崔振才,郭林华,田文苓.水资源系统模糊优化多维动态规划模型与应用.水科学进展,2000,(6):186~193.
[177].陈守煜,马建琴,邱林.多维多目标模糊优选动态规划及其在农业灌溉中的应用.水利学报,2002,(4):33~38.