key: cord-0074353-qm84336d
authors: Ganie, Abdul Haseeb
title: Multicriteria decision-making based on distance measures and knowledge measures of Fermatean fuzzy sets
date: 2022-01-31
journal: Granul
DOI: 10.1007/s41066-021-00309-8
sha: 0fd49ab019f85c623855e2195a656a92f7176d27
doc_id: 74353
cord_uid: qm84336d

Fermatean fuzzy sets are more powerful than fuzzy sets, intuitionistic fuzzy sets, and Pythagorean fuzzy sets in handling various problems involving uncertainty. The distance measures in the fuzzy and non-standard fuzzy frameworks have got their applicability in various areas such as pattern analysis, clustering, medical diagnosis, etc. Also, the fuzzy and non-standard fuzzy knowledge measures have played a vital role in computing the criteria weights in the multicriteria decision-making problems. As there is no study concerning the distance and knowledge measures of Fermatean fuzzy sets, so in this paper, we propose some novel distance measures for Fermatean fuzzy sets using t-conorms. We also discuss their various desirable properties. With the help of suggested distance measures, we introduce some knowledge measures for Fermatean fuzzy sets. Through numerical comparison and linguistic hedges, we establish the effectiveness of the suggested distance measures and knowledge measures, respectively, over the existing measures in the Pythagorean/Fermatean fuzzy setting. At last, we demonstrate the application of the suggested measures in pattern analyis and multicriteria decision-making.

The concept of the fuzzy set (FS) theory was put forward by Zadeh (1965) for handling imprecise and vague information. In an FS, each element is assigned a membership value lying between 0 and 1, indicating its degree of belongingness to the set. Fuzzy sets (FSs) have been applied in many fields such as pattern recognition, medical diagnosis, clustering, etc. Since in an FS, the non-membership value of an element cannot be chosen independently, so Atanassov (1986) introduced the concept of intuitionistic fuzzy sets (IFSs). In an intuitionistic fuzzy set (IFS), each element has a membership value and a nonmembership value lying in the interval [0, 1] with their sum less or equal to one. This restriction on the sum of membership values limits the scope of IFSs and so the concept of Pythagorean fuzzy set (PFS) was proposed by Yager (2013) as an extension of IFSs (Atanassov 1986 ) (IFSs) and FSs (Zadeh 1965) for solving the problems involving uncertainty more precisely. Each element of a PFS has a membership grade l ð Þ and a non-membership grade # ð Þ with their square sum at most one l 2 þ # 2 1 ð Þ . The technique for order of preference by similarity to ideal solution (TOPSIS) in the Pythagorean fuzzy (PF) setting and the concept of the Pythagorean fuzzy number were suggested by Zhang and Xu (2014) . Various PF aggregation functions with their utility in decision-making were given by Yager (2014) . Wei and Lu (2018) introduced some power aggregation functions for PFSs. Using Einstein operations, Garg (2016) proposed some new aggregation functions in the PF environment. Wei (2017) suggested some PF interaction aggregation functions with their utility in multicriteria decision-making (MCDM). Many studies (Garg 2017; Lu et al. 2017; concerning the PF aggregation functions with their various applications are available in the literature. The TODIM (an acronym in Portuguese for Interactive and Multicriteria Decision Making) method for PFSs was introduced by Ren et al (2016) . proposed & Abdul Haseeb Ganie ahg110605@gmail.com some information measures for PFSs. A novel PF distance measure was proposed by Peng and Dai (2017) . Some PF measures of correlation with their utility were proposed by Singh and Ganie (2020) . Various researchers (Garg 2019a, b; Rahman and Abdullah 2019; Khan et al. 2019a, b; Akram and Ali 2020; Ejegwa 2020a, b; Rahman et al. 2020 Rahman et al. , 2021 Talukdar and Dutta 2021; Rahman 2021; Akram and Shahzadi 2021; Biswas and Deb 2021; Verma and Agarwal 2021; Touqeer et al. 2021 ) have studied PFSs and applied them in distinct uncertain situations. Though PFSs have a lot of applications in various fields but they are unable to handle situations, where l 2 þ # 2 ! 1, e.g., if l ¼ 0:8 and # ¼ 0:7, then l 2 þ # 2 ¼ 1:13 [ 1. So, Senapati and Yager (2020) proposed the concept of fermatean fuzzy sets (FFSs). In a fermatean fuzzy set (FFS), we have l 3 þ # 3 1. This means that FFSs are more powerful than FSs, IFSs, and PFSs because they all are contained in the space of FFSs. Some FFS aggregation operators with their applicability in decision-making were given by Senapati and Yager (2019) . The weighted aggregated sum product assessment (WASPAS) method in the fermatean fuzzy (FF) environment was suggested by . A novel FF decision-making approach was given by Ghorabaee et al. (2020) . The application of FF aggregation functions in the COVID-19 testing facility was shown by Garg et al. (2020) . Yang et al. (2020) studied the continuities and derivatives of FF functions. Some FF capital budgeting techniques were proposed by Sergi and Sari (2021) . Sahoo (2021a, b) proposed some score functions for FFSs and their utility in transportation problems and decision-making. The TOPSIS (technique for order of preference by similarity to ideal solution) method for FFSs was proposed by Aydemir and Yilmaz (2020) . suggested some of Einstein's norm operationsbased aggregation functions for FFSs. The concept of fermatean fuzzy soft sets (FFSSs) with their applicability in the selection of an antivirus mask was given by Shahzadi and Akram (2021) . The TOPSIS technique for fermatean fuzzy soft sets (FFSSs) was suggested by Salsabeela and John (2021) . To solve the sustainable third-party reverse logistics providers (S3PRLPs) selection problem a hybrid methodology based on FFSs was proposed by . Shahzadi et al. (2021a) introduced some FF Hamacher aggregation functions with their utility in multicriteria group decision-making. Aydin (2021) proposed some cosine FF similarity measures with their use in decision-making. The applicability of the FFSs for occupational risk assesment in manufacturing was shown by Gul et al. (2021) . Some FF Hamacher arithematic and geometric aggregation operators and their application in MCDM was established by Hadi et al. (2021) . Shit and Ghorai (2021) suggested some Dombi aggregation functions based on FFSs and applied them in decisionmaking. A novel divergence measure and multi-objective optimization based on the ratio analysis with the full multiplicative form (MULTIMOORA) method in FF setting were proposed by Rani and Mishra (2021) . Some Hamacher interactive geometric FF aggregation functions and their usability in medical field were given by Shahzadi et al. (2021b) . The concept of fermatean fuzzy bipolar soft sets with their utility in MCDM was given by Ali and Ansari (2021) . The current study is related to the development of some novel FF distance measures and knowledge measures. Distance measures are very powerful in comparing two objects based on their inequality content. Application of some PF measures of distance and similarity in MADM was shown by Zeng et al (2018) . Hussain and Yang (2019) proposed some Hausdorff metric-based PF measures of distance and similarity with their applicability in PF TOPSIS. Some generalized measures of distance and their continuous versions for PFSs were given by Li and Lu (2019) . They also proposed set-theoretic-based, matching function-based, and complement-based PF similarity measures. Based on the membership grades, Ejegwa (2020a) proposed some distance and similarity measures for PFSs. Some cosine function-based PF similarity measures were suggested by . Twelve PF measures of distance and similarity with their applicability were given by . For PFSs Zhang (2016) introduced a measure of similarity and its utility in decision-making. Some novel measures of similarity and distance for PFSs based on L p norm and level of uncertainty were given by Peng (2019) . By combining the Euclidean distance measure and cosine similarity measures, Mohd and Abdullah (2018) developed some novel PF similarity measures. Zhang et al. (2019) proposed some exponential PF similarity measures and demonstrated their application in MADM, pattern analysis, and medical diagnosis. Some PF Dice similarity measures with application in decisionmaking were given by Wang et al (2019) . Verma and Merigo (2019) developed some trigonometric functionbased PF measures of similarity. The application of some multiparametric PF measures of similarity in classification problems was demonstrated by Peng and Garg (2019) . Some novel PF similarity measures based on exponential function with their application in classification problems were given by Nguyen et al (2019) .

The entropy of a PFS is the ambiguity content present in it. Entropy measure is very essential for computing the weight of attributes in an MADM problem involving PF data. Xue et al. (2018) introduced the axiomatic definition of PF entropy measure and used the PF entropy measure in decision-making. Some probabilistic and non-probabilistic PF entropy measures were given by Yang and Hussain (2018) . With the help of a new PF entropy measure, Thao and Smarandache (2019) introduced the CORPAS MADM method in the PF environment. introduced five FF entropy measures.

Knowledge of an FS is the amount of precision present in it. Knowledge measure (KM) plays a great role in determining the weight of attributes in an MADM problem involving fuzzy data. Singh et al. (2019) introduced the axiomatic definition of a fuzzy knowledge measure (FKM) and used it in decision-making. They also proposed a fuzzy accuracy measure and utilized it in image processing. Later on, Singh et al. (2020b) also introduced a one-parametric generalization of the FKM and discussed its various applications. For IFSs, there are various studies (Szmidt et al. 2014; Nguyen 2015; Guo 2016; Lalotra and Singh 2018; Das et al. 2018; Guo and Xu 2019; Farhadinia 2020) regarding the knowledge measures (KMs) with their practical applications. Lin et al. (2020) proposed a knowledge measure (KM) for picture fuzzy sets with its utility in decision-making. Some PF KMs with their various applications were introduced by Singh et al (2020a). For hesitant fuzzy sets, Singh and Ganie (2021a) introduced a generalized KM.

The following are the primary factors that prompted us to conduct this research.

• The distance measures for fuzzy and non-standard fuzzy sets have great applicability in many areas such as pattern analysis, decision-making, clustering, etc. But there is no study concerning the distance measures of FFSs available in the literature. • Most of the fuzzy and non-standard fuzzy distance measures have been proposed at the formula level and fail to satisfy the axiomatic requirements. So, there is not a general method of obtaining the distance measures. • The fuzzy and non-standard fuzzy knowledge measures are used for computing the attribute weights in MCDM problems. However, the knowledge measures for FFSs have not been proposed.

The main contributions of this paper are as:

• • We demonstrate the applicability of the suggested measures in pattern analysis and MADM.

The paper is organized as: Sect. 2 is preliminary. Some novel FF distance measures along with desirable properties are given in Sect. 3. Section 4 is devoted to the introduction of some distance-based FF knowledge measures. The comparison of the suggested FF distance measures and knowledge measures with the available PF/FF measures of compatibility is shown in Sect. 5. Section 6 demonstrates the applicability of the suggested distance measures and knowledge measures in pattern analysis and MADM. At last, the conclusion and future study are given in Sect. 7.

Definition 5 

Definition 6 (Mishra and Rani 2021) A function E :

In the next section, we introduce some novel distance measures for FFSs along with their properties.

Here, we propose some FF measures of distance. First, we define a distance measure in the FF environment.

Now, we introduce a novel method of generating the FF distance measures from t-conorms.

Definition 10 Let M 1 , M 2 2 FFS W ð Þ, then we define a function.

We have the following cases:

Example 1 Some examples of FF distance measures are given in Table 1 .

In most of the decision-making problems, the weights w j of the elements m j ; j ¼ 1; 2; . . .; l are taken into consideration, so we introduce the weighted FF distance measures.

Definition 11 Let M 1 , M 2 2 FFS W ð Þ, then we define a function.

given by.

where g is a t-conorm.

Theorem 3 The function D W G given in Eq.

(2) is a valid FF distance measure.

Proof Similar to Theorem 1.

Example 2 Some examples of weighted FF distance measures are given in Table 2 .

Next, we propose some novel FF measures of knowledge based on the proposed FF distance measures.

The entropy measures are used to compute the amount of ambiguity present in an FFS, whereas the knowledge measures acting as the soft duals of entropy measures are used to calculate the amount of precision in an FFS. Here, we introduce a method of constructing FF knowledge measures from the FF distance measures. First, we define the knowledge measure for FFSs.

Now, we give a method of generating the FF knowledge measures from the FF distance measures.

Definition 13 Let M 1 2 FFS W ð Þ, then we define a function.

where D G is a FF distance measure.

Theorem 4 The function K G defined in Eq.

(3) is a valid FF knowledge measure. (Mizumoto 1989 ) (Mizumoto 1989 ) (Mizumoto 1989 )

Proof To show that the function K G is a FF measure of knowledge, we show it has the properties of a FF measure of knowledge given in Definition 12.

(K1) Clearly 0 K G M 1 ð Þ 1 as 0 D G M 1 ; M c À Á :

With the help of Eq. (3) and based on the suggested FF measures of distance, some FF measures of knowledge are given in Table 3 below. Now, we compare the suggested FF measures of distance and knowledge with some available PF/FF measures of information.

In this section, we show that our suggested FF measures of distance and knowledge give better results than most of the available PF/FF measures of information.

To contrast the performance of the suggested FF measures of distance, we first list the PF measures of similarity/distance available in the literature. Distance measures :

x þ y ¼ 1; x; y 2 0; 1 ½ ;

Similarity measures :

We now consider three different cases of FFSs with each case consisting of two different FFSs. The compatibility values of these three different cases computed by the existing PF distance/similarity measures including the suggested FF distance measures are shown in Table 4 .

From Table 4 , we have ; andD PYY10 gives the same distance for the two distinct cases (Case II and Case III). 2. The PF distance D PYY2 gives ''0'' as the distance between the two different PFSs (Case I) and thus fails to satisfy the axiom (D3) of the PF distance measure given in Definition 5. 3. The PF distance D PYY7 ; D PYY8 ; D PYY9 , and D PYY10 gives ''1'' as the distance between the two different PFSs (Case I) although they are not a complement to each other. 4. The PF similarity measures S PYY1 ; S PYY4 ; S PYY5 ; S PYY6 ; S PYY9 ; andS PYY10 give the same degree of similarity for the two distinct cases (Case II and Case III). 5. The PF similarity measure S PYY2 gives ''1'' as a similarity degree for the two different PFSs (Case I) and thus fails to satisfy the axiom (S3) of the PF measure of similarity given in Definition 4. 6. The PF similarity measures S PYY7 ; S PYY8 ; S PYY9 , and S PYY10 gives ''0'' as similarity degree for the two different PFSs (Case I) although they are not a complement to each other. 7. The similarity degree of the different PFSs (Case II and III) by the similarity measures S PYY7 and S PYY8 comes out to be negative, which is unreasonable. 8. The proposed FF distance measures D Gj ; 1 j 4 outperform the majority of the available PF measures of distance/similarity. Now, using linguistic hedges, we show the effectiveness of the suggested FF measures of knowledge. Since an FF entropy measure, E computes the ambiguity content in an FFS, so it has to satisfy the following requirement:

Also, an FF knowledge measure K acts as a soft dual of an FF entropy measure and calculates the amount of precision in an FFS, so it has to satisfy the following requirement:

We now consider an example related to the ambiguity computation of the above-mentioned FFSs.

Example 4 Let M 1 2 FFS W ð Þ be given as: Table 5 .

From Table 5 , we have the following:

Thus, it follows that all the available PF/FF measures of entropy E PYYj ; 1 j 8; E XXZT ; E TS ; E YH ; E MRj ; 1 j 4; and the PF knowledge measures K SSGj ; j ¼ 1; 2; does not satisfy the requirements given in Eq. (4) and Eq. (5), respectively. However, all our suggested FF knowledge measures K Gj ; j ¼ 1; 2; 3; 4 follow the desired requirement given in Eq. (5). This shows that from a linguistic hedge perspective, the suggested measures of knowledge are robust than the available ones.

Next, we show the utility of the suggested FF measures of knowledge and distance in pattern recognition and decision-making.

In this section, we demonstrate the application of the suggested measures in pattern analysis and MCDM.

Here, we show that the suggested FF distance measures can be used for solving the problems related to pattern classification. In pattern analysis, an unfamiliar pattern is categorized into one of the known patterns using some measures of compatibility viz., similarity measures, The problem is to see with which pattern M j ; j ¼ 1; 2; 3, the pattern M has maximum resemblance. For this purpose, we use the suggested FF distance measures along with the Step 6: Rank the alternatives as

where D is a FF distance measure and 1 j; t n. Now, we solve an MCDM problem in the example given below.

Example 5 (Singh and Ganie 2021b) Consider the problem of purchasing a house out of the five houses M j ; j ¼ 1; 2; 3; 4; 5 by considering the following criteria:

N 1 : Ceiling height, N 2 : Design, N 3 : Location, N 4 : Purchase price, N 5 : Ventilation.

The information about the five houses with respect to the above-mentioned five criteria is expressed in the form of FFSs as shown by the decision matrix D below: D ¼ h0:7; 0:5i h0:6; 0:8i h0:4; 0:7i h0:8; 0:3i h0:6; 0:5i h0:6; 0:6i h0:7; 0:3i h0:2; 0:7i h0:4; 0:6i h0:1; 0:7i h0:29; 0:8i h0:21; 0:9i h0:6; 0:8i h0:71; 0:3i h0:1; 0:3i h0:2; 0:9i h0:2; 0:8i h0:1; 0:6i h0:5; 0:6i h0:4; 0:7i h0:3; 0:9i h0:32; 0:9i h0:4; 0:8i h0:6; 0:6i h0:3; 0:4i

As the criteria N 4 is a cost attribute, so the normalized decision matrix E with the help of Step 2 is given below: E ¼ h0:7; 0:5i h0:6; 0:8i h0:4; 0:7i h0:3; 0:8i h0:6; 0:5i h0:6; 0:6i h0:7; 0:3i h0:2; 0:7i h0:6; 0:4i h0:1; 0:7i h0:29; 0:8i h0:21; 0:9i h0:6; 0:8i h0:3; 0:71i h0:1; 0:3i h0:2; 0:9i h0:2; 0:8i h0:1; 0:6i h0:6; 0:5i h0:4; 0:7i h0:3; 0:9i h0:32; 0:9i h0:4; 0:8i h0:6; 0:6i h0:3; 0:4i

With the help of Step 3 and using the suggested knowledge measure K G1 given in Table 3 , we obtain the criteria weights as: w 1 ¼ 0:1675; w 2 ¼ 0:1250; w 3 ¼ 0:1897; w 4 ¼ 0:2464; and w 5 ¼ 0:2714.

Next, using Step 4, the FF ideal solution M Ã is given as:

M Ã ¼ h0:7; 0:5i; h0:7; 0:3i; h0:6; 0:6i; h0:6; 0:4i; h0:6; 0:3i f g :

The computed values of the distance of each alternative M j ; j ¼ 1; 2; 3; 4; 5 from the FF ideal solution M Ã using the suggested weighted distance measures D w Gj ; j ¼ 1; 2; 3; 4 given in Table 2 are shown in Table 8 .

The final ranking of alternatives with the help of Step 6 is shown in Table 9 and Fig. 1 .

From Table 9 , we conclude that M 2 is the most feasible alternative as all the suggested FF distance measures and the existing PF distance measures D PYY1 and D PYY4 indicate the same. This shows that the suggested distance measures are consistent with the existing distance measures (Tables 8  and 9 ).

This paper has presented a novel method of constructing some distance measures and knowledge measures for FFSs with the help of t-conorms. First with the help of t-conorms, four distance measures for FFSs have been proposed and then with the help of proposed FF distance measures, four new FF knowledge measures have been introduced. The suggested measures of distance are more effective than most of the available PF distance/similarity measures as far as the distance/similarity degree between different PFSs/ FFSs are concerned. Most of the existing PF distance/ similarity measures have given unsatisfactory results while computing the distance/similarity between different PFSs/ FFSs and also some measures have failed to satisfy all the axiomatic requirements. However, the proposed FF distance measures have produced satisfactory results without any counterintuitive situation. Further, the suggested measures of knowledge for FFSs are more robust than the available PF/FF entropy/knowledge measures from the linguistic hedge aspect. The applicability of the suggested FF distance measures has been shown in classification problems and the results are contrasted with the existing measures. Also, the suggested measures have been used for solving a multicriteria decision-making problem and the results are consistent with the available measures.

In the future, we will show the applicability of the suggested measures of distance for FFSs in medical diagnosis and clustering. We will also extend the proposed method of obtaining distance and knowledge measures to some recent generalizations of FSs such as interval-valued fuzzy sets (Turksen 1986; Shyi-Ming Chen 1997; Chen et al. 1997; Chen and Hsiao 2000) , interval type-2 fuzzy sets (Mendel et al. 2006; Chen and Lee 2011; Chen et al. 2013; Chen and Hong 2014) , picture fuzzy sets (Cuong and Kreinovich 2013) , spherical fuzzy sets (Mahmood et al. 2019) , complex fuzzy sets (Ramot et al. 2002) , etc.

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Acknowledgements Authors are highly thankful to the anonymous reviewers and the Editor for their constructive suggestions and for bringing the paper in the present form.Data availability All data generated or analyzed during this study are included in this published article.

Conflict of interest The author declares that there is no conflict of interest.

PF entropy measure (Xue et al. 2018 ):PF entropy measure (Thao and Smarandache 2019) :! PF entropy measure (Yang and Hussain 2018) . (Singh et al. 2020a ) Table 6 .

From Table 6 , it is clear that M should be assigned to M 2 as shown by most of the PF/FF distance/similarity measures including the suggested FF measures of distance. The problem is to see with which pattern M j ; j ¼ 1; 2; 3, the pattern M has maximum resemblance. For this purpose, we use the suggested FF distance measures along with the existing measures of compatibility. The computed values are shown in Table 7 .From Table 7 , it follows that M should be assigned to M 1 as shown by most of the PF/FF distance/similarity measures including the suggested FF measures of distance.Thus, from Examples 5 and 6, we conclude that in terms of pattern recognition, the suggested FF measures of distance are consistent with the existing distance/similarity measures.

Here, we show that the suggested FF measures of knowledge and distance are useful for solving multicriteria decision-making (MCDM) problems involving uncertainty and ambiguity. The main hurdle in an MCDM problem is the computation of criteria weights and we use the suggested knowledge measures for this purpose. For determining the best alternative, we take the help of the suggested distance measures. First, we give the algorithm for solving an MCDM problem having n alternatives M j ; j ¼ 1; 2; . . .; n and m criteria N k ; k ¼ 1; 2; . . .; m with w k ; k ¼ 1; 2; . . .; m as criteria weights where 0 w k 1 and P m k¼1 w k ¼ 1.

Step 1: Formulate the decision matrix D ¼nÂm expressing the information of the available alternatives with respect to the criteria.Step 2: Formulate the normalized decision matrix E ¼Step 3: Compute the criteria weights w k ; k ¼ 1; 2; . . .; m as:. . .; m:Here, K is a FF knowledge measure.Step 4: Determine the FF ideal solution M Ã ¼ l Ã. . .; m.Step 5: Compute the distance of each alternative M j ; j ¼ 1; 2; . . .; n from the FF ideal solution M Ã using the suggested weighted FF distance measures.