Aggregation operators on intuitionistic trapezoidal fuzzy number and its application to multi-criteria decision making problems

Intuitionistic trapezoidal fuzzy numbers and their operational laws are defined. Based on these operational laws, some aggregation operators, including intuitionistic trapezoidal fuzzy weighted arithmetic averaging operator and weighted geometric averaging operator are proposed. Expected values, score function, and accuracy function of intuitionitsic trapezoidal fuzzy numbers are defined. Based on these, a kind of intuitionistic trapezoidal fuzzy multi-criteria decision making method is proposed. By using these aggregation operators, criteria values are aggregated and integrated intuitionistic trapezoidal fuzzy numbers of alternatives are attained. By comparing score function and accuracy function values of integrated fuzzy numbers, a ranking of the whole alternative set can be attained. An example is given to show the feasibility and availability of the method.

EXTENSION OF THE TOPSIS METHOD BASED ON PROSPECT THEORY AND TRAPEZOIDAL INTUITIONISTIC FUZZY NUMBERS FOR GROUP DECISION MAKING

Considering the decision maker＇s risk psychological factors and information ambiguity under uncertainty, a novel TOPSIS based on prospect theory （PT） and trapezoidal intuitionistic fuzzy numbers （YrIFNs） for group decision making is investigated, in which the criteria values and the criteria weights take the form of TrIFNs, and weights of decision makers are unknown. Firstly, distance measures for TrIFNs are used to induce value function under trapezoidal intuitionistic fuzzy environment. Secondly, the concepts of distance measures and trapezoidal intuitionistie fuzzy weighted averaging operator are employed to induce the weights of decision makers and thus the decision makers＇ options can be aggregated. Then the PT-based separation measures and relative closeness coefficient are defined and an algorithm for ranking alternatives under trapezoidal intuitionistic fuzzy environment is proposed. Finally, a numerical example further illustrates the practicality and effectiveness of the proposed TOPSIS method.

A MULTI-ATTRIBUTE LARGE GROUP EMERGENCY DECISION MAKING METHOD BASED ON GROUP PREFERENCE CONSISTENCY OF GENERALIZED INTERVAL-VALUED TRAPEZOIDAL FUZZY NUMBERS

In this paper, a new decision making approach is proposed for the multi-attribute large group emergency decision-making problem that attribute weights are unknown and expert preference information is expressed by generalized interval-valued trapezoidal fuzzy numbers （GITFNs）. Firstly, a degree of similarity formula between GITFNs is presented. Secondly, expert preference information on different alternatives is clustered into several aggregations via the fuzzy clustering method. As the clustering proceeds, an index of group preference consistency is introduced to ensure the clustering effect, and then the group preference information on different alternatives is obtained. Thirdly, the TOPSIS method is used to rank the alternatives. Finally, an example is taken to show the feasibility and effectiveness of this approach. These method can ensure the consistency degree of group preference, thus decision efficiency of emergency response activities can be improved.

CONFLICT MEASURE MODEL FOR LARGE GROUP DECISION BASED ON INTERVAL INTUITIONISTIC TRAPEZOIDAL FUZZY NUMBER AND ITS APPLICATION

The problem of measuring conflict in large-group decision making is examined with every decision preference expressed by multiple interval intuitionistic trapezoidal fuzzy numbers （IITFNs）. First, a distance measurement between two IITFNs is given and a function of conflict between two members of the large group is proposed. Second, members of the large group are clustered. A measurement model of group conflict, which is applied to aggregating large-group preferences, is then proposed by employing the conflict measure of clusters. Finally, a simulation example is presented to validate the models. These models can deal with the preference analysis and coordination of a large-group decision, and are thus applicable to emergency group decision making.

Trapezoidal Intuitionistic Fuzzy Aggregation Operator Based on Choquet Integral and Its Application to Multi-Criteria Decision-Making Problems

The Choquet integral can serve as a useful tool to aggregate interacting criteria in an uncertain environment. In this paper, a trapezoidal intuitionistic fuzzy aggregation operator based on the Choquet integral is proposed for multi-criteria decision-making problems. The decision information takes the form of trapezoidal intuitionistic fuzzy numbers and both the importance and the interaction information among decision-making criteria are considered. On the basis of the introduction of trapezoidal intuitionistic fuzzy numbers, its operational laws and expected value are defined. A trapezoidal intuitionistic fuzzy aggregation operator based on the Choquet integral is then defined and some of its properties are investigated. A new multi-criteria decision-making method based on a trapezoidal intuitionistic fuzzy Choquet integral operator is proposed. Finally, an illustrative example is used to show the feasibility and availability of the proposed method.

基于离差最大化的IITFN多属性决策模型

针对属性值为区间直觉梯形模糊数(IITFN),且属性权重为区间值的多属性决策问题,提出一种基于离差最大化的IITFN多属性决策模型。计算各方案与正、负理想解的距离,定义各方案的不同属性到相应正、负理想解分量的离差,基于离差最大化原则给出最优化模型,应用Lingo工具给出权重的值,依据IITFN的加权算数平均算子给出各方案的总离差,根据总离差的大小对各方案进行排序。实例结果表明,该模型的运算步骤少,更易于实现。

基于集成算子的改进IITFN多属性群决策方法

对区间直觉梯形模糊数决策方法进行研究。定义了区间直觉梯形模糊数期望值、得分函数和精确函数,进而给出了区间直觉梯形模糊数的一种新的排序方法。另一方面,给出了有序加权平均算子和混合集成算子。建立了基于区间直觉梯形模糊数的多属性群决策方法,给出了相应的群决策方法。实例分析验证了所提出方法的有效性。

基于模糊多属性群决策理论的课堂教学质量评价研究

考虑学生给定评价信息时的犹豫特性、学生主体之间的差异性以及信息共享的关联性,采用直觉梯形模糊数转换学生群体给定的评价信息,引入模糊测度和Shapley函数值处理存在关联性学生群体的客观权重,并由此构建基于模糊多属性群决策理论的教师课堂教学评价模型,以便于科学、合理地对高校教师课堂教学进行综合评价。

基于GOWA算子的IITFN群决策方法

对区间直觉梯形模糊数(IITFN)决策方法进行了研究.通过定义区间直觉梯形模糊数的期望值和预期得分,进而给出区间直觉梯形模糊数的一种新的排序方法;同时,给出了广义有序加权平均算子及其性质.为了求广义有序加权平均(GOWA)算子的权重,提出了广义最小二乘法,进而建立了基于区间直觉梯形模糊数的属性权重完全未知的多属性群决策方法,并给出了相应的群决策方法.实例分析验证了所提出方法的有效性.

基于IITFN输入的复杂系统关联MAGDM方法

区间直觉梯形模糊数(Interval-valued intuitionistic trapezoidal fuzzy number,IITFN)是刻画复杂系统不确定性的有效工具.基于进一步完善的IITFN运算规则,讨论其局部封闭性.由此定义IITFN几何Bonferroni平均算子,并验证该算子的相关性质.针对决策者及属性之间均存在关联作用且权重均未知的多属性群决策(Multi-attribute group decision making,MAGDM)问题,提出基于前景混合区间直觉梯形几何Bonferroni(Prospect hybrid interval-valued intuitionistic trapezoidal fuzzy geometric Bonferroni,PHIITFGB)平均算子的关联多属性群决策方法.该方法首先通过依次定义IITFN的前景效应、前景价值函数和前景价值,获取前景价值矩阵;其次,将前景价值矩阵转化为前景记分函数矩阵,并综合运用基于灰关联深度系数的客观属性权重极大熵模型和基于2-可加模糊测度与Choquet积分联合的决策者权重确定模型,获取决策者权重及属性权重;再次,利用PHIITFGB算子集结各决策者的方案评估信息,结合决策者权重即可获取相应于各方案的综合前景价值;最后,计算综合前景记分价值函数,基于IITFN的序关系判别准则确定方案排序.案例验证决策方法的有效性和可行性.

基于梯形模糊合作伙伴选择的群体决策方法

针对复杂多变的选择合作伙伴的决策环境,提出基于梯形模糊数的TODIM-PROMETHEE的多属性群体决策框架。首先,将TODIM模型的应用空间拓展到直觉梯形模糊数,利用TODIM中考虑决策者风险偏好的优势增强决策方法中决策者的参与度。其次,结合PROMETHEE ll法,运用优先函数来逐步比较两个对象的优劣关系,解决属性之间的互补性问题,并采用净流量的大小来确定所有对象的排序关系。最后,结合实例,证明此方法的可行性,为选择合作伙伴问题提出一种新的方法。

基于ITFN-DEMATEL的联合收割机驾驶人员关键行为形成因子研究

为提高联合收割机驾驶过程中的人机交互安全性,研究驾驶人员的关键行为形成因子(PSF)。在PSF系统化分类方法的基础上,采用文献分析法和专家判断法构建联合收割机驾驶PSF体系;结合梯形直觉模糊数(ITFN)与决策试验与评价实验室(DEMATEL)方法,确定PSF的专家直觉评分集并进行模糊化处理,构建直觉关系模糊影响矩阵,通过模糊运算转化为综合关系模糊影响矩阵,计算PSF的中心度和原因度,提出关键因子;最后运用计算机仿真对结论进行灵敏度分析。结果表明:PSF关系模型有效,能正确描述PSF之间的因果关系;19个PSF相互之间的综合影响度为2.87,中心度均值为5.75,其中态度、技能、经验、显示方式、显示界面布局、操纵装置布局、前向视野、安全教育、作业监管、操作规程、监管机构等11个要素的中心度大于均值或原因度高于0。

考虑专家行为偏好与指标关联的铁路应急预案评估

针对现有铁路应急预案评估方法中较少考虑专家行为偏好与指标关联的问题,提出一种基于前景理论与模糊测度理论的铁路应急预案评估方法。利用前景理论将各专家以直觉梯形模糊数给出的评估值转化为能体现专家行为偏好的前景价值;利用λ模糊测度和Choquet积分集结关联指标前景价值,并针对各指标模糊测度未知情况,提出最大熵优化模型确定最佳模糊测度;综合评估专家先验信息、专家所给评估值信息量大小以及专家个体决策在群决策中的贡献程度等多方信息,提出一种组合赋权法以确定专家权重;提出基于投影距离的逼近理想解法以对候选预案集进行优劣排序。案例结果表明所提方法具有合理性与有效性。

基于前景理论的铁路应急预案多指标风险评估研究

铁路应急预案评估是铁路应急管理系统中的关键一环。针对现有铁路应急预案评估方法存在的不足,通过分析铁路应急预案的构成要素,提出以时效性、可操作性、完备性、责任明确性和经济性等5方面为基础的铁路应急预案评估指标体系,以及基于前景理论的直觉梯形模糊多指标风险群决策方法以确定最优铁路应急预案。利用前景理论计算指标的综合前景值,基于Choquet积分和扩展Shapley值的集结算子对指标集进行集结,采用投影法获取专家权重并集结各专家的意见,依据相应于各方案的综合前景值获取方案排序,即可确定最优铁路应急预案。算例表明方法的可行性与有效性。

基于直觉模糊数的信息不完全的多准则规划方法

定义了直觉模糊数和直觉梯形模糊数及其期望值.针对权系数信息不完全确定和准则值为直觉梯形模糊数的多准则决策问题,提出了信息不完全确定的直觉梯形模糊多准则决策的规划方法.该方法利用权系数的不完全信息构造方案集综合期望值的最优线性规划模型,求解该模型得到各准则的最优权系数,进而得到各方案综合期望值的区间数.利用区间数可能度法对其进行比较,得到整个方案集的排序.实例分析说明了该方法的有效性和可行性.

直觉梯形模糊群决策的可能性均值方差方法

研究方案属性值为直觉梯形模糊数(ITFN)多属性决策群问题,提出了一种基于可能性均值-方差的决策方法.首先定义了ITFN新的合理运算法则,引入了ITFN的可能性均值、方差及其指标值的概念,根据可能性均值和方差指标给出了ITFN新的排序方法.通过构建线性目标规划模型求解得到方案的群体综合属性值,进而给出群决策结果.实例分析验证了方法的有效性.

模糊多准则决策方法研究综述

模糊多准则决策是当前决策领域的一个研究热点,在实际决策中有着广泛的应用.为此,介绍了基于模糊数、直觉模糊集和Vague集的多准则决策方法和语言多准则决策方法的研究现状,定义了直觉梯形模糊数和区间直觉梯形模糊数,扩展了模糊数和直觉模糊集.最后探讨了目前模糊多准则决策要解决的问题和发展方向.

基于梯形直觉模糊数的TOPSIS多属性决策方法

针对属性值为梯形直觉模糊数的多准则决策问题,给出了一种基于梯形直觉模糊数的TOPSIS多属性决策方法.根据提出的梯形直觉模糊数的Hamming距离公式,计算各方案和梯形直觉模糊数正负理想方案的距离,从而求得各方案和正理想解的相对贴近度,基于贴近度大小对方案集进行排序.最后,用数值实例进一步说明了该梯形直觉模糊TOPSIS方法的有效性和实用性.

模糊偏好下基于属性二元关系的群体聚类方法

在多属性复杂大群体决策中,对决策成员的决策结果进行有效的聚类,是分析以及完成群体决策的基础。考虑属性间二元关系,用直觉梯形模糊数表示决策者的偏好信息,给出一种大群体聚类方法。该方法通过计算直觉梯形模糊偏好矢量的期望值得到群体成员期望偏好矢量。基于属性间二元关系形成期望矢量的属性关系矩阵,并以此为基础构造了两期望矢量的相聚度模型,同时提出了大群体聚类方法。最后通过算例以及算例结果与其他聚类方法比较,证明该方法的有效性和实用性。