A Multiobjective Decision-Making Method of Service Element Allocation of Customer Behavior

How to effectively configure the resources to maximize customer satisfaction is an important research topic in the service quality evaluation.This paper proposes a service quality evaluation under fuzzy environmentmethod that takes customer satisfaction as the goal and considers enterprise resource constraints and customer fuzzy evaluation information at the same time. In this method, we first use expert Delphi method to get service elements and service items. Meanwhile, we design questionnaires to collect customer language fuzzy evaluation information and use FHAHP model to calculate the relative weight vector of the service items. Second, the customer is subdivided intomarket segmentation considering the customer total consumption and the service expectation value using the Logit model. Next, the customer satisfaction of the service schemes is calculated considering the customer’s expectation of the service schemes.Then, themaximum satisfaction of the customer group is calculated under the condition of enterprise resource constraint. Finally, an example is used to illustrate the feasibility and effectiveness of the proposed method.


Introduction
To retain stability and competitiveness in such a global dynamic market, service-oriented enterprises should focus on the quality of service in order to achieve sustainable development of its benefits.Service quality is consumers' overall impression of the relative inferiority or superiority of service-oriented enterprises [1], providing high-quality service products for service-oriented enterprises to better hold market share and gain greater profits [2].Under the condition of enterprise resource and cost constraint, it is very important for the development of enterprises to maximize satisfy customer needs and improve customer satisfaction.Hallikas et al. posited that in a highly competitive environment service-oriented enterprises need to improve service quality continuously for maintaining competitive advantage [3].It is vital to service-oriented enterprises growth by effectively optimizing and assessing service programs to mitigate the barriers [4].Service quality evaluation will provide an important basis for service quality improvement.
The issue of service quality evaluation has received considerable attention from researchers and practitioners during the past three decades.In the extant literature there are a number of studies that deal with service quality evaluation, which can be divided into two groups: one is the SERVPERF model proposed by Cronin Jr. and Taylor [5]; another is SERVQUAL (the service quality gaps model PZB gap model), a well-known measure, proposed by Parasuraman et al. [6].The existing literature methods mainly focus on the importance analysis of the service elements, service scheme design and service system design, and service product quality evaluation.However, the service quality evaluation based on fuzzy environment is very little.
Moreover, service quality evaluation is a combination of various attributes; it contains not only objective attributes but also subjective attributes, many of which are intangible and difficult to measure with numerical accuracy, which are fuzzy information [7].This paper proposes a novel method for customer satisfaction service quality evaluation under fuzzy environment.The remaining sections of the paper are organized as follows: Section 2 reviews some of the existing research results of the service quality evaluation.Section 3 proposes a novel method for evaluating the service quality under fuzzy environment.An illustrative example is

Literature Review
The extent to which the quality of service meets the requirements of the customer, that is, customer satisfaction [8], is the standard to measure the feasibility and quality of service products.After service is provided, a positive or negative reaction will emerge from customers getting that service [9].Therefore, good customer satisfaction can improve customer loyalty and profitability and return on investment and guarantee the business success in today's competitive world.In recent years, the quality evaluation research results of customer satisfaction as the target are increasing, for example, Mkpojiogu and Hashim [10], based on the KANO model to analyze the relationship between customer need and customer satisfaction, and then the customer satisfaction is divided into customer satisfaction index (SI), average satisfaction coefficient (ASC), and customer dissatisfaction (DI).Through KANO model analysis customer satisfaction variables (SI, DI, and ASC) are each associated with customer need.George and Kumar explore service quality dimensions in Internet Banking in the State of Kerala (India) and investigate the effect of these dimensions on customer satisfaction, that is, the impact of five dimensions of reliability, responsiveness, fulfillment, efficiency, and privacy and security on customer satisfaction [1].Chakraborty et al. [11] present an innovative approach to customer satisfaction service quality evaluation by applying Bayesian Networks, using a railway transport case study customer satisfaction, which is a Key Performance Indicator in public transport management.
Here are often some attributes that are difficult to quantify with a single value in the service quality evaluation; for example, it is difficult to quantify the freshness of food with a single value.In recent years, many researchers have introduced fuzzy values to service quality evaluation; for example, Li et al. [12] proposed a hybrid approach based on fuzzy AHP and 2-tuple fuzzy linguistic method to evaluate in-flight service quality.The ratings of subcriteria are assessed in linguistic values to express the qualitative evaluation of passengers' subjective opinions, and then the linguistic values are transformed into 2-tuples and the 2tuple linguistic arithmetic mean operator is utilized to obtain the average ratings of 100 respondents.Using the 2-tuple linguistic weighted average operator to compute the aggregated ratings of criteria and the overall in-flight service quality of alternatives, Büyüközkan and C ¸ifc ¸i [13] proposed the e-sq framework which is illustrated with a web service performance example of healthcare sector in Turkey by using a combined multiple criteria decision-making (MCDM) methodology containing fuzzy analytic hierarchy process (AHP) and fuzzy technique for order performance by similarity to ideal solution (TOPSIS).Chou et al. [14] proposed a fuzzy weighted SERVQUAL model for evaluating the airline service quality.Liao and Kao propose a novel approach to customer service management.For the improvement of customer satisfaction, the method integrates quality function development (QFD), fuzzy extended analytic hierarchy process (FEAHP), and multisegment goal programming (MSGP) [15].
According to the above review, this paper proposes a novel approach for customer satisfaction service quality evaluation under fuzzy environment.

The Proposed Method
The service elements are the basic components of the service quality evaluation, such as service facilities, service content, and service flow, which can meet the customer need.The customer need for the service can usually be divided into a number of service elements; there may be multiple replaceable service elements to meet customer need; these service elements can constitute a service item (i.e., a set of service elements that can be replaced with each other).Different service elements have a different degree of satisfaction to the customer's needs, and the corresponding cost should be different.Different service elements are optimized and combined to constitute different service schemes.Considering the service-oriented enterprise's objectives and capabilities, the quality of each service scheme is evaluated and the best service scheme is selected [16], as shown in Figure 1.

Problem Description.
This paper proposes a novel approach for customer satisfaction service quality evaluation under fuzzy environment.In this method, first of all, the service items and service elements are obtained by Delphi method, and a questionnaire survey is designed to obtain the language evaluation information of the target customers.Because the language evaluation information is very vague, we use fuzzy extended analytic hierarchy process (FEAHP) model to calculate the relative weight vector of each service item.Then taking into account the effect of customer behavior on customer satisfaction, the Logit model is used to subdivide the customer market segmentation.Next, the customer satisfaction degree of each service scheme is calculated by considering the customer's expectation of the service schemes.On this basis, the customer maximum satisfaction is calculated under the consideration of the enterprise cost constraints.Finally, the service quality evaluation of China's high-speed rail was selected as an example to prove the feasibility and effectiveness of the proposed method.CN = {CN 1 , CN 2 , . . ., CN  }.This is a collection of customer needs of service product, where CN  denotes the th customer needs,  = 1, 2, . . ., .SO = {SO 1 , SO 2 , . . ., SO ℎ }.This is a collection of service schemes, where SO  denotes the th service schemes,  = 1, 2, . . ., ℎ.
= { 1 ,  2 , . . .,   }.It is the collection of the th service items, where   is the th service elements in the th service items,  = 1, 2, . . ., ,  = 1, 2, . . ., .The problem concerned in this paper is how to maximize customer satisfaction, considering the cost constraints of the enterprise.To solve the service quality evaluation problem under fuzzy environment, we proposed a novel method for service quality evaluation based on FEAHP and Logit model which is presented graphically as shown in Figure 2.
Based on the framework for evaluating service quality, the details of the proposed method are presented as follows.

Relative Weight of Service Items Based on FHAHP.
According to the survey, in the life, one customer needs often one or more service items to be satisfied, and there may be some connections between these multiple service items.In this paper, the fuzzy extended analytic hierarchy process (FHAHP) is used to determine the weight of service items.The traditional service quality evaluation often adopts the scoring method to collect customer evaluation information; however, there are some uncertain attributes in real life, and it is difficult to use a single value to evaluate the service quality.If the attributes are singled out by the traditional single scoring method, it will lead to the loss of customer evaluation information and ultimately affect the accuracy of the service quality evaluation.In order to effectively reduce the loss of customer evaluation information, the fuzzy extension of the analytic hierarchy process makes the calculation of the weight of the service item more reasonable [17,18].

AHP Model of Service
Quality.The AHP model of service quality includes three levels: the target layer, the guideline layer, and the factor layer.The target layer is to measure the service quality of service schemes.The guideline layer includes the service items that affect the service quality.The factor layer includes the specific service elements contained in each service item; it can be expressed in Figure 3.

Fuzzy Judgment Matrix Established Based on the Fuzzy Numbers
(1) The Triangular Fuzzy Numbers [19,20].Let  be a universe of discourse; a fuzzy subset â of  is defined with a membership function V â() that maps each element  in â to a real number in the interval [0, 1].The function value of V â() signifies the grade of membership of  in â.When V â() is large, its grade of membership of  in â is strong.
A triangular fuzzy number â can be defined by a triplet (  ,   ,   ),   ≤   ≤   (see Figure 4).Its membership function V â() is defined as where   ,   , and   are real numbers.When  =   , the grade of V â() is maximal; that is, V â() = 1, and it is the most probable value of the evaluation data.Constants   and   are the lower and upper bounds of the available range for the evaluation data.These constants reflect the fuzziness of the evaluation data, as shown in Figure 4.   Given two arbitrary triangular fuzzy numbers â1 = (  1 ,   1 ,   1 ), â2 = (  2 ,   2 ,   2 ) and any real number , let ⊕, ⊝, ⊗, and / denote the extended addition, subtraction, multiplication, and division defined by the extension principle; thus the five main operations of triangular fuzzy numbers can be expressed as follows: (2) Fuzzy Judgment Matrix Established.According to the overall goal requirements, through the two comparisons of services to obtain the fuzzy judgment matrix [21], the fuzzy judgment matrix is expressed as Here,   = ( .the ambiguity is small when 0 < ,  < 0.5 which can not show good reflection of the ambiguity of people's understanding; when ,  > 1, the ambiguity is too large, and the confidence is reduced; when 0.5 < ,  < 1, the ambiguity is most suitable [21]. The fuzzy judgment matrix is transformed into a fuzzy complementary matrix using (3).The fuzzy judgment matrix mentioned in this paper is the fuzzy complementary matrix [22].

Determining the
where   is a triangular fuzzy number (   ,    ,    ).Let (  ≥   ) indicate the degree of possibility of the triangular fuzzy number   ≥   ; ( ≥  1 ,  2 , . . .,   ) is the degree of possibility that the triangular fuzzy number  is greater than or equal to others triangular fuzzy numbers.  indicates the measure of service item   excellent for other service items, that is, the weight.It can be expressed as When Or when Note that  = { 1 ,  2 , . . .,   } is a collection of the weight of service items, where   denotes the weight of the th service items.According to ( 6) and ( 7) the absolute weight   of the service item   can be obtained.And, then, the absolute weight vector  is normalized to obtain the relative weight vector  * = ( 1 * ,  2 * , . . .,   * ) of service items, where   * represents the relative weight of the service item   .The relative weight vector  * can be calculated as Obviously,   * meets ∑  =1   * = 1, 0 ≤   * ≤ 1,  = 1, 2, . . ., .

Customer Market Segmentation Based on Logit Model.
Different customers have different customer value and customer profit for the same enterprise.According to different customer value, classify customers to help enterprises identify valuable customers.Enterprises can concentrate on serving higher value customers, so as to improve their profitability and competitive advantage.The customer value denotes the size of the customer's net cash flow, the core of which is the contribution of cash flow [23].The customer value includes the current value and the future value: the current value assumes that the customer's current purchase mode remains unchanged as well as the profit that the customer can create for the company in the future; the future value is assumed by adopting the appropriate marketing strategy to make the customer's purchase behavior develop toward the direction of increasing profits and the profit that the customer can create for the company in the future [24].Based on the difference of customer value, this paper uses the two indicators of customer total consumption and service expectation value to customer market segments, as shown in Figure 5.The two indicators of customer total consumption and service expectation value can not only express the current value of the customers, but also predict the potential value of the customers in the future.The method first predicts the customer total consumption in their life cycle according to the customer's historical transaction record and the customer's purchase intention.Then, according to the expected utility of different brands of the same product, we measure the next purchase probability of consumers and establish a Markov prediction model for each consumer.The customer is classified by predicting customer total consumption in the future period and service expectation value of customers.
Burden Customer.The customer total consumption and the service expectation value are very low so this kind of customers value is low.If the enterprise resources are limited, enterprises can ignore such customers.
Problem Customer.The most unattractive class of customers is that where the customer total consumption is very low but the service expectation value is very high.These customers are a burden on the company.It is not suitable for the company to invest any resources to maintain this kind of customers.It can be lost and may even take some marketing strategies to remove the relationship.
Loyal Customer.The most attractive class of customers is that where the customer total consumption is very high and the service expectation value is very low.For this kind of customers company should invest the appropriate resources to maintain the stability of the relationship between the two parties so that the customer will continue to be satisfied.
Gold Customer.The customer total consumption and the service expectation value are very high so this kind of customers value is high.The difference between this type of customer and the loyal customer is that the enterprise needs to invest more resources to meet the customer's higher service expectations.This kind of customers has a great impact on the company's profit, so the company maintains the stability of such customers by investing more resources.

Forecast of Customer Total Consumption.
The customer total consumption is the sum of the net present values of the same product purchased in the life cycle of the customer.The greater the customer total consumption, the greater the customer need for the product.On the other hand, the smaller the customer total consumption, the smaller the customer need for the product.
Suppose the customer has the same amount of consumption each time and the two time intervals are equal.So the customer's total consumption  can be expressed as [25] where  is the expected number of customers consumption in the life cycle;  is the discount rate;   is th customer total consumption.The expected number of customers consuming  is the number of times that the customer buys this kind of service product in its life cycle, and it can be obtained by where  is the life cycle length of a customer;  is the two time intervals.The impact of the customer's life cycle length involves a lot of factors, like corporate variables, customer variables, environmental variables, and many other factors.
Because the social development environment changes too fast, the prediction of longer time consumption can not guarantee its accuracy and reliability, so the value of  does not exceed 5 years.

Prediction of Service Expectation Value.
The service expectation value is the customer satisfaction degree of the service quality.If the satisfaction degree of a customer is 100%, it is meaningless to invest in resources to improve the customer's service expectations.The Logit model is used to predict service expectation value for different service elements.
Based on the theory of random utility in Logit model [26,27], the service total utility is made up of two parts of the service random utility and the service random utility, as shown by Let  = [ 1 , . . .,   ] denote service total utility of the service items, where   denotes service total utility of the th service item,  = 1, 2, . . ., .V  is the service utility decision part of the th service items;   is the service utility random part of the th service items.
In addition to taking into account the self-attributes of each service item, the utility of a service item should also take into account the customer selection inertia, that is, the behavior of the customer.In 1983, Guadagni and Little demonstrated that customer selection inertia in the selection model was a very important factor [25].Therefore, the expected utility model can be expressed as where    is total utility of the th service item in the case of the last choice of the th service item;   is the inertia coefficient of goods purchased by regression analysis; if  = , Last  = 1; else  ̸ = , last = 0. Let   =   Last  +   , comprehensive equations ( 11) and ( 12), the probability of the customer selecting the th service item is expressed as The service decision utility  is determined by the relevant variables of the service item, the relevant variables of the customer, and the other variables.It is assumed that the service decision utility is determined by the  observable variables, and the service decision utility can be expressed as According to ( 13) and ( 14), when the customer selected the th service item last time, the probability of selecting the th service item can be expressed as where   is the known value of the evaluation;   ( = 0, 1, 2, . . ., ) is the weight vector of the attribute.  denotes the case when the customer selected the th service item last time and the probability of selecting the th service item,  = 1, 2, . . ., ,  = 1, 2, . . ., .
The selection probability of  times to the jth service item using Markov method: where   denotes the selection probability of  times to the th service item;   denotes  of selection probability of the th service item, according to the survey,  = 1, 2, . . ., .
The service expectation value  can be expressed as [28].

Calculating Alternative Customer Satisfaction Level
Using questionnaires to investigate customers who have experience with the service product to get customer expectations and customer perception for service elements, let    denote that the th customers give the customer expectation value  for the th service items;    denotes that the th customers give the customer perception value  for the th service items; the value of  ranges from 1 to 10, where "1" means the worst and "10" means the best.Setting 0-1 variable    , when    ≤    ,    = 1; else when    >    ,    = 0,  = 1, 2, . . ., ,  = 1, 2, . . ., ,  ∈ [1,10].
Let    denote the number of customers who expect less than/equal to what is perceived, 0 ≤    ≤ , ∑ 10 =1    = .It can be calculated as Then, according to (18), we can calculate the probability of service item (  ) that the customer expectation value is .It can be calculated as where 0 ≤    ≤ 1 and ∑ 10 =1    = 1,  = 1, 2, . . ., .Let (  ) denote the customer expectation for service item   , which can be represented by For the convenience of further analysis, we can calculate the comprehensive evaluation   of the service scheme   of service item   .It is obtained by where   denotes the customer's evaluation value for the service element   ;   denotes the weight of the service element   .
According to (20) and ( 21) to obtain the comprehensive evaluation   and the customer group's expectation (  ), the customer satisfaction   for the service scheme   of service item   is expressed by where  max  = max{ 1 ,  2 , . . .,   };  is the satisfaction threshold given by the decision maker.
It can be seen from ( 22) that the comprehensive evaluation   of the service scheme   does not satisfy the customer expectation on the service element   ; the customer satisfaction   of the service scheme   is zero; that is,   = 0; customer satisfaction is  when it just meets the customer group's expectation on service items; the comprehensive evaluation   is equal to the customer expectation,   = .If the comprehensive evaluation   is increasing, it will be greater than the customer expectation, and the customer satisfaction   is greater.

Service Elements Optimization Configuration Model.
To maximize customer satisfaction is the ultimate goal of service-oriented enterprises.In this paper, customer satisfaction maximization is the goal, considering the conditions of business costs are limited and then establishing service factor optimization model: where   denotes the th customer market share;   = 0 denotes that   is not selected; on the contrary,   = 1 denotes that   is selected.
Here, (23) is the max customer satisfaction of service product quality; (23a) is the total cost of the service elements that are selected which can not exceed the expected total cost; (23b) indicates that only one service element is selected for each service item.

Problem Description.
In recent years, China's traffic transportation industry has shown a steady, long-lasting, and rapid development trend.The steady increase has led the railway transportation industry to show a fierce competitive trend, the key to the development and performance improvement of the railway transportation industry in their service quality.SC Railway Bureau is going to invest 70 million yuan to improve its service quality of high-end cabin between A city and C city.
Take the high-iron service as an example to improve the service of the first class of high-speed rail to verify the effectiveness and feasibility of the model.References [11,29,30] involved the railway transportation industry service quality evaluation program and then conducted a questionnaire survey for 350 passengers having high-end experience of this route.According to the statistical analysis, Delphi method is used to obtain four customer needs: high-quality cabin service (CR 1 ); high-quality food service (CR 2 ); recreational satisfaction (CR 3 ); and clean and tidy environment (CR 4 ): 6 service items and 14 service elements as shown in Figure 6.

Establishment of Optimization Model.
Choose three experts to evaluate the service items to get fuzzy judgment matrix, as shown in Table 2.And then the evaluation of three experts to find the average is found in Table 3.
According to (2)-( 4), we can get the comprehensive importance of the service items.
* = (0.036, 0.060, 0.106, 0.102, 0.224, 0.427) Let customers use the scoring method of "1-5" to score the decisive utility and random utility of the service items, and then average the collected data to obtain the utility of each service element, as shown in Table 4.
According to ( 12)-( 15), the probability of selecting the th service item in the case that customer chooses the th service item at the last time is calculated as shown in Table 5.
Using score of "0-10," we get the customer satisfaction of the service quality in one high-speed rail travel.According to (9) and (10), we calculate the customer total consumption of the service items in their life cycle; that is,  = 18.397.
According to the literature analysis [31,32], we can choose 3 years of the customer life cycle and the discount rate of satisfaction is 0.002.
It can be seen that the service team concluded that the probability of the customer's last choice of the service items was   = (0.3, 0.1, 0.2, 0.1, 0.1, 0.2), according to the questionnaire survey.And then we can obtain the th service item which is selected for  times using (16).16) and (17) to calculate the expected utility of the service items:  1 = 0.193,  2 = 0.153,  3 = 0.162,  4 = 1.153,  5 = 1.169,  6 = 0.161.
The total value of -axis  is 18.397 and the total value of -axis is 1.7.The customer group can divided into four  quadrants according to the value of the -axis and -axis coordinates as shown in Figure 7.
According to the questionnaire survey, adopting the scoring principle of "1-10," we get to adopt the scoring principle of "1-10" and establish the expected probability distribution of the service items based on ( 18) and ( 19), as shown in Table 6.
According to the questionnaire survey, we can obtain the index system and index weight of the service items giving the service schemes, as shown in Table 7.
The related variables of the service quality evaluation are summed up, as shown in Table 8.
According to (23), the service quality evaluation model can be established for the high-speed rail, as shown below.

Conclusions
This paper presents a service quality evaluation model considering enterprise resource constraints and customer fuzzy evaluation information.Through the questionnaire survey and interviews to obtain customer needs for highspeed rail services and then through the expert group Delphi method obtains FHAHP model including 6 service items and 14 service elements.We use the triangular fuzzy hierarchy method to calculate the weight vector of the service items at the first.Secondly, we use the Logit model for customer market segmentation.And then we can forecast the customer's satisfaction with the service schemes.Finally, an evaluation model is set up with the goal of maximizing customer satisfaction.In contrast to existing service product configuration models, this paper takes fully into account the ambiguity of customer satisfaction for service and the customer market segmentation, maximizing the customer's satisfaction.The method presented in this paper has the characteristics of clear and easy operation and has potential application value.It provides a new analytical model for rational and effective service quality evaluation under fuzzy environment.

Discussion
In this paper, we evaluate the service quality allocation scheme and introduce fuzzy numbers to ensure the completeness of evaluation information and the correctness of evaluation results.The initial model takes into account the incompatibility of service elements, but some service items including some service elements are compatible in real life.Taking the service quality evaluation of the high-speed rail high-end cabin in this paper as an example, the service items  4 (leisure reading factors) and  5 (entertainment factors) contain the compatibility of the service elements, so the service items  4 (leisure reading factors) and  5 (entertainment factors) can provide 2 service elements to participate in the configuration of the service scheme.In addition, the service elements contained in the rest of the service items    Using the Lingo software package to solve the model the optimal solution can be obtained:  11 = 1,  21 = 1,  31 = 1,  41 = 1,  42 = 1,  51 = 1,  52 = 1,  62 = 1, as shown in Figure 9.
As shown in the picture, the new customer satisfaction is 1.129 relative to the old customer satisfaction value 0.955, where the customer satisfaction is increased by 0.174.
Because of the limited text, the competitor's factors are not taken into consideration when evaluating the service quality.Future research will be concentrated on the impact of competitor factors on the evaluation of the quality of service and the compatibility of service elements.

Figure 2 :
Figure 2: The framework of the proposed method.

Figure 3 :
Figure 3: The framework of the proposed method.

Figure 8 :
Figure 8: The service items selection diagram of Lingo.

Figure 9 :
Figure 9: The service items selection diagram of Lingo.

Table 1 :
AHP judgment scale definition table.
,    ,    ) is a triangular fuzzy number,    ,    are the upper and the lower bounds of the triangular fuzzy numbers, and    is the relative importance of the digital measure between    and    ,    <    <    . to   is strongly important 0.7   to   is obviously important 0.6   to   is slightly important 0.5   to   is equally important 0.4, 0.3, 0.2, 0.1 In contrast, the importance of   to   Using the 0-1 scoring method to take the value of    , get the model judgment matrix , as shown in Table 1.When   is more important than   ,  =    −    ,  =    −    .In turn, when   is more important than   ,  =    −    ,  =    −

Table 3 :
Fuzzy judgment matrix for average of service items.

Table 4 :
Service utility table.

Table 6 :
Expected probability distribution of service items.

Table 8 :
Summary of factors related to service elements.