key: cord-0074588-pavqkyhb
authors: Mukherjee, Anjan; Mukherjee, Abhik
title: Interval-Valued Intuitionistic Fuzzy Soft Rough Approximation Operators and Their Applications in Decision Making Problem
date: 2022-02-07
journal: Ann
DOI: 10.1007/s40745-022-00370-3
sha: 1b712da75436162994590062b8d302c542b11761
doc_id: 74588
cord_uid: pavqkyhb

It has been found that fuzzy sets, rough sets and soft sets are closely related concepts. Many complicated problems in economics, engineering, social sciences, medical science and many other fields involve uncertain data. These problems, which one comes in real life, cannot be solved using classical mathematical methods. There are several well-known theories to describe uncertainty, for instance, fuzzy set theory, rough set theory, and other mathematical tools. But all of these theories have their inherit difficulties as pointed out by D. Molodtsov. In 1999, D. Molodtsov introduced the concept of soft sets, which can be seen as a new mathematical tool for dealing with uncertainties. The concept of rough sets, proposed by Z. Pawlak as a framework for the construction of approximations of concepts. It is a formal tool for modeling and processing insufficient and incomplete information. Zhou and Wu first proposed the concept of intuitionistic fuzzy rough sets (IFrough sets). The aim of this paper is to introduce the concept of interval-valued intuitionistic fuzzy soft rough sets (IVIFS rough sets). We also investigate some properties of IVIFS rough approximation operators. Some basic operations and properties are studied. Lastly applications have been shown in decision making problems.

In [1] , Zhou and Wu first proposed the concept of IFS rough sets. It is the combination of fuzzy soft relation and the intuitionistic fuzzy rough sets. They investigated some properties of IFS rough approximation operators. Moreover, many new rough set models have also been established by combining the Pawlak rough set with other uncertainty theories, Feng et al. [2] provided a framework to combine fuzzy sets, rough sets, and soft sets all together. It gives rise to several interesting new concepts such as rough soft sets, soft rough sets, and soft rough fuzzy sets. The combination of soft set and rough set models was also studied in [3] .

In this paper, we propose the notion of interval-valued intuitionistic fuzzy soft rough sets (IVIFS rough sets). We combine a IVIF soft relation with interval-valued intuitionistic fuzzy rough sets. Then we define the upper and lower approximations of any IVIF set on parameter set E. IVIFS rough sets can also be exploited to extend many practical applications in real life. Therefore, we propose a novel approach to decision making based on IVIFS rough set theory.

The rest of this paper is organized as follows. In Sect. 2, we review some basic notions related to soft sets, fuzzy soft sets, intuitionistic fuzzy sets, interval-valued intuitionistic fuzzy sets. In Sect. 3, we construct the definition of IVIFS rough sets and investigate some of their interesting properties. We also investigate some properties of IVIFS rough approximation operators. Section 4 is devoted to studying the application of IVIFS rough sets. Section 5 explores knowledge discovering in COVID-19 pandemic. In particular it discusses about the people who affected severely in COVID-19. We use IVIF soft rough operators for determining COVID-19 patients. Some conclusions and outlooks for further research are given in Sect. 6 .

Data science is an interdisciplinary field focused on extracting knowledge from data sets, which are typically large (big data), and applying the knowledge and actionable insights from data to solve problems in a wide range of application domains. The field encompasses preparing data for analysis, formulating data science problems, analyzing data, developing data-driven solutions, and presenting findings to inform high-level decisions in a broad range of application domains.

Data Science and related technologies are critical in the fight against pandemics, such as the 2003 severe acute respiratory syndrome coronavirus (SARS-CoV), COVID-19, to enable governments and health managements figure out the best preparation and response. Big data, data mining, machine learning, and a variety of other technologies can be used to swiftly and effectively evaluate data in order to track and regulate COVID-19's spread over the world [4] [5] [6] [7] . Big data is currently a hot topic among researchers, engineers, health-care executives, and administrators [8] . Several academics have made extensive use of data mining techniques to uncover hidden information in large datasets [4] [5] [6] [7] . The results obtained from the study by Liu et al. [6] can be linked to India and other countries, which will be valuable in understanding the virus transmission patterns among the population of different age-groups. Further we study the references [8] [9] [10] [11] [12] [13] .

The following definitions and preliminaries are required in our future work. Definition 2.1 ([14] ) Let X be an ordinary set. A fuzzy subset α in X is the collection of ordered pairs (x, μ α (x)) with x ∈ X and a membership function μ α : X → [0,1]. The value μ α (x) of x denotes the degree to which an element x may be a member of α. Thus a fuzzy subset α of X is denoted by α = {(x, μ α (x)): x ∈ X} where μ α (x) = 1, indicates strictly the containment of the element x in α (full membership) and μ α (x) = 0 denotes that x does not belong to α(non-membership). Thus an ordinary set is a special case of fuzzy set with a membership function which is reduced to a characteristic function. Because of these generalities the fuzzy set theory has a wider scope of applicability than the ordinary set theory in solving real problems.

A fuzzy set α can also be represented in the following way α = { x/μ α (x), ∀ x ∈ X} or α = { (x, μ α (x)): x ∈ X}The set of all fuzzy subset on X is denoted by I X . After the introduction of concept of fuzzy sets by Zadeh, several researches generalized the notion of the fuzzy set. The idea of "intuitionistic fuzzy set " was first published by Atanassov in 1983. 

is called the indeterministic part of x and 0 ≤ π A (x) ≤ 1. ([18, 19] ) Let R be an equivalence relation on the universal set U. Then the pair (U, R) is called a Pawlak approximation space. An equivalence class of R containing x will be denoted by [x] R . Now for X ⊆ U, the lower and upper approximation of X with respect to (U, R) are denoted by respectively R * X & R*X and are defined by

Now if R * X = R*X, then X is called definable otherwise X is called a Rough set. Definition 2.6 ( [20] [21] [22] [23] [24] ) Let U be an initial universe and E be a set of parameters. Let P(U) denotes the power set of U and A ⊆ E. Then the pair (F, A) is called a soft set over U, where F is a mapping given by F: A → P(U).

For any ε ∈ A, F(ε) ⊆ U may be considered as the set of ε-approximate elements of the soft set (F, A). Definition 2.7 ([25, 26] ) Let U be an initial universe and E be a set of parameters. Let I U be the set of all fuzzy subsets of U and A ⊆ E. Then the pair (F, A) is called a fuzzy soft set over U, where F is a mapping given by F: A → I U .

For any ε ∈ A, F(ε) is a fuzzy subset of U. Let us denote the membership degree that object x holds parameter ε by μ F(ε) (x), where x ∈ U and ε ∈ A. Then F(ε)can be written as a fuzzy set such that

Definition 2.8 ([27] ) Let U be an initial universe and E be a set of parameters. Let I U be the set of all fuzzy subsets of U and A ⊆ E. Now, F: A → I U , and α be a fuzzy subset of A i.e. α:

For any ε ∈ A, F(ε) is a fuzzy subset of U. Let us denote the membership degree that object x holds parameter ε by μ F(ε) (x), where x ∈ U and ε ∈ A. Then F(ε)can be written as a fuzzy set such that F

Definition 2.9 ([28]) Let U be an initial universe and E be a set of parameters. Let I F U be the set of all intuitionistic fuzzy subsets of U and A ⊆ E. Then the pair (F, A) is called an intuitionistic fuzzy soft set over U, where F is a mapping given by F:

For any ε ∈ A, F(ε) is an intuitionistic fuzzy subset of U. Let us denote μ F(ε) (x) and γ F(ε) (x) by the membership degree & non-membership degree respectively that object x holds parameter ε, where x ∈ U and ε ∈ A. Then F(ε) can be written as an intuitionistic fuzzy set such that F

Now before we introduce the notion of the interval valued intuitionistic fuzzy soft sets, let us give the concept of interval valued intuitionistic fuzzy set which was first introduced by Atanassov and Gargov [17] . Actually an interval valued intuitionistic fuzzy set is characterized by an interval-valued membership degree and an intervalvalued non-membership degree.

We denote the class of all interval valued intuitionistic fuzzy sets on U by IVIFS U . The union and intersection of the interval valued intuitionistic fuzzy sets are defined as follows:

Let A, B ∈ IVIFS U . Then • the union of A and B is denoted by

• the intersection of A and B is denoted by A ∩ B where

Atanassov and Gargov showed in [17] In other words, an interval valued intuitionistic fuzzy soft set is a parameterized family of interval valued intuitionistic fuzzy subsets of U. For any parameter e ∈ A, F(e) can be written as an interval valued intuitionistic fuzzy set such that

is the interval valued fuzzy membership degree that object x holds parameter e and γ F(e) (x) is the interval valued fuzzy membership degree that object x doesn't hold parameter e. 

The pair (R(A), R(A)) is an intuitionistic fuzzy soft rough set of A with respect to (U, E, . R).

We also investigate some properties of interval-valued intuitionistic fuzzy soft rough approximation operators. Definition 3.1 Let U be an initial universe set and let E be a universe set of parameters. For an arbitrary IVIF soft relation R over U × E, the pair (U, E, R) is called a IVIF soft approximation space. For anyA ∈ IVIF(E), we define the upper and lower intervavalued intuitionistic fuzzy soft approximations of A with respect to (U, E, R), denoted by R(A) and R(A) respectively as follows:

The pair (R(A), R(A)) is an interval-valued intuitionistic fuzzy soft rough set (IVIF soft rough set) of A with respect to (U, E, R).

Proof

Hence, R(A) ∈IVIF(U). Similarly, we have R(A))∈IVIF(U). We call R, R:

The upper and lower IVIF soft rough approximation operations respectively. 

In this article we first adopt the ring sum operation and ring product operation in the following way:

Thus from Example 3.3. Obviously the optimal decision is u 1 (since the max of the membership value is 0.76 (which is the max. of the others) and max of the non-membership value is 0.15( which is the min. of the others). Thus Mr. X will purchase the house u 1 . Now, we consider the ring product operation.

Here, It is noted that the optimal decision is still u 1 (since the max of the membership value is 0.24(which is the max. of the others) and max of the non-membership value is 0.65(which is the min. of the others). Hence the Mr. X will purchase the house u 1 .

where~A is the complement of A.

Proof From definition we have,

From (1) and (2) 

From (1) and (2) 

Here,

.

Early detection or prediction is very important to reduce the fatalities of COVID-19 patients. A method using IVIF soft rough operators is used to analyze the identify of Covid-19 patients.

People of all ages can be affected by the new corona virus. Older people and people with pre-existing medical conditions ( such as Asthma, Diabetes, Heart disease, Cancer) appear to be more vulnerable to becoming severely ill with the virus. Most common symptoms are (1) fever (2) dry cough (3) tiredness. Less common symptoms are (a) aches and pains (b) sore throat (c) diarrhea (d) conjunctivitis (e) headache (f) loss of taste or smell (g) a rash on skin or coloration of fingers or toes. Lastly serious symptoms are (i) difficulty breathing or shortness of breath (ii) loss of speech or movement. People seek immediate medical attention if they have serious symptoms. COVID-19 surge is a spread -sheet based tool that hospital administrators and public health officials can use to estimate the surge in demand for hospital based services during the COVID-19 pandemic. A user of COVID-19 surge can produce estimate of the number of COVID-19 patients that need to be hospitalized the number requiring ICU care and the number requiring ventilator support. In this paper we discuss about the people who affected severely in COVID-19. For further study we refer [31, 32] 

In this paper, we have first proposed the concepts of IVIFsoft rough sets. We investigated some properties of IVIF soft rough sets in details. In addition, a new decision method based on IVIFsoft rough sets is proposed. Moreover, practical applications based on IVIF soft rough sets is applied to show its validity. We also believe that the decision making method developed here is expected to attract the researchers working in these areas. Actually, there are at least two aspects in the study of rough set theory: constructive and axiomatic approaches, so is the same to IVIF soft rough sets. So further work should consider the axiomatic approaches to IVIF soft rough sets and the modification of the proposed decision method. In 4.3, it is to be noted that no algorithms are needed for taking the decision.

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