Logistics Service Provider Selection through an Integrated Fuzzy Multicriteria Decision Making Approach

Nowadays, the demand of third-party logistics provider becomes an increasingly important issue for companies to improve their customer service and to decrease logistics costs. This paper presents an integrated fuzzy approach for the evaluation and selection of 3rd party logistics service providers. This method consists of two techniques: (1) use fuzzy analytic hierarchy process to identify weights of evaluation criteria; (2) apply fuzzy technique for order preference by similarity to ideal solution (TOPSIS) method to evaluate and sequence alternatives and to make the final selection. Finally, an actual industrial application is performed in logistics department of a tire manufacturing company. For this, first, eight logistics supplier selection criteria were determined, and then the best alternative among seven logistics service provider companies was selected by the proposed method.


Introduction
Logistics plays a important role in integrating the supply chain of industries.Because the market becomes more global, logistics is now seen as an important area where industries can decrease costs and improve their customer service quality [1].
Nowadays, many companies are searching to outso urce their logistics operations to what they call as Third Party Logistics Service Providers (LSPs) to introduce products and service innovations quickly to their markets [2].Therefore there is an increasing trend that manufacturing companies outsource their logistics activities to meet their increasing need for logistics services.This trend has increased importance of the concept of third party LSPs [3].In today's economic environment, many firms name third party LSPs as more qualified and economic in accomplishing their partial or all logistic requirements [4].
Outsourcing means that an organization hires an outside organization to provide a good or service that it traditionally had provided itself, because this third party is an "expert" in efficiently providing this good or service, while the organization itself may not be [5].
Because of development of supply chain partnerships, cost reduction, restructuring of the company, success of the firms using contract logistics, globalization, improvement of services and efficient operations, companies need to outsource their logistics activities to 3PL service providers [6].The outsourcing of logistics activities to third-party LSPs has now become a common practice.An LSP is defined as a provider of logistics services that performs the logistics functions on behalf of their clients [7].
The LSP selection is a complex multi-criteria decision making (MCDM) problem that includes both quantitative and qualitative criteria some of which can conflict each other and is vital in enhancing the competitiveness of companies [8].It is an important function of the logistics departments as it brings significant savings for the organization.While choosing the appropriate LSP, logistics managers might be uncertain whether the selection will satisfy completely the needs of the organization [9].
Because of some troubles in MCDM problems such as subjectivity, uncertainty and ambiguity in assessment process [10], this study uses Fuzzy Analytic Hierarchy Process (FAHP) to establish the evaluation structure and calculate the importance weights of assesment criteria according to a group of decision-makers, and applies Fuzzy Technique for Order Preference by Similarity to an Ideal Solution (TOPSIS) [11] to obtain the final ranking order of LSPs.
This research evaluates the performance of 3rd party LSPs of a tire company in a developing country, Turkey, via the proposed FAHP and fuzzy TOPSIS techniques with MCDM.The fuzzy AHP is used to determine the preference weights of evaluation criteria.Then, this research illustrates that the fuzzy TOPSIS is integrated with fuzzy AHP to evaluate and determine performance levels of seven logistics service providers (LSPs) and find out the best alternatives among these seven LSP companies.
The remainder of this paper is organized as follows: Section 2 a literature survey of logistics management, third party logistics and third party logistics service provider.Also in this section we mentioned about logistics service providers in Turkey.This section also includes criteria used for evaluating performances of third party LSPs and evaluation methods third party LSPs performances.Section 3 includes methodology related with selection of logistics service providers, fuzzy set theory, fuzzy AHP, fuzzy TOPSIS.A Case study for the proposed methodology about selection of logistics service provider is performed for a tire manufacturing company.In Section 5, conclusion, limitation and manegarial implications of the study is discussed.

Logistics management. According definition by the Council of Supply Chain
Management Professionals [12], it is accepted that logistics management is a part of supply chain management (SCM).It is the part -… that plans implements, and controls the efficient, effective forward and reverse flow and storage of goods, services, and related information between the point of origin and the point of consumption in order to meet customers' requirements.‖ Logistics is an integration of information, transportation, material handling, stock and storage and packaging operations.Logistics activities contains purchasing, transportation, quality, control, customs and insurance, handling, ware housing, inventory management, order processing, sales-demand forecast, logistics information management, distribution, labeling, packaging, fleet management, management of separate parts, product returns, shipment planning [13].Logistics includes the flow of goods, services and information related to movements of goods and services from the suppliers to a satisfied customer without waste [14].
Council of Logistics Management defined logistics as the process of planning, implementing and controlling the efficient, cost effective flow and storage of raw materials, in-process inventory, finished goods and related information from origin to consumption for the purpose of conforming to customer wants [15].According to this definition, logistics includes all activities related to the product, service and information flow between supplier, manufacturer and customer (Fig. 1).

Third party logistics.
There is an emerging trend for logistics outsourcing in the global market.Lambert et al. [15] state that logistics outsourcing is "the use of a third-party provider for all or part of an organization's logistics operations".Rabinovich et al. [16] defined logistics outsourcing relationships as "long and short-term contracts or alliances between manufacturing and service firms and third party logistics providers".According to Bandrodt and Davis, third-party logistics is defined as logistics outsourcing [17] .
Lieb [14] expressed that third-party logistics involves the using of external companies to carry out logistics functions traditionally performed within an organization.Third party LSPs provide multiple logistics services to their customers such as direct transportation service, warehouse operations and management, shipment planning and consolidation, management of logistics information systems, carrier selection, rate negotiation, product returns, fleet management, labeling, packaging, relabeling/repackaging, order processing and fulfillment, product assembly/installation, inventory management and customer spare parts [8,9].
Lieb [14] defined third-party logistics as the using of external companies to perform logistics functions that have traditionally been executed within an organization.Thirdparty logistics is defined as ‗‗activities carried out by an external company on behalf of a client company and these activities consist of at least the provision of management of multiple logistics services.These activities are offered in an integrated way, not on a standalone basis.The co-operation between the shipper and the external company is an intended continuous relationship taking at least one year'' [18].According to the Council of Supply Chain Management Professionals, third-party logistics is defined as "a firm that provides multiple logistics services for use by customers.Preferably, these services are integrated together by the provider [12].
Third-party logistics can be defined as specialized companies from outside of the firm fulfill the some or all of the logistics activities performed traditionally within the organization through outsourcing [19].The functions performed by the third party can inlude the entire logistics process or selected activities within that process.3PL services are mostly focused attention on transportation and warehousing, etc, and these 3P-LSPs must have professional experiences in each service [20].
Third-party logistics is the function by which the owner of goods (the client company) outsources various elements of the supply chain to a third-party logistics company that can perform the management function of the clients inbound freight, customs, warehousing, order fulfillment, distribution, and outbound freight to the clients [21].
Bask [22] defined third-party logistics as relationships between interfaces in the supply chains and 3PL providers, where logistics services are offered, from basic to customized ones, in a shorter or longer-term relationship, with the aim of effectiveness and efficiency.

Third Party Logistics Service Provider.
According to a survey performed by Forrester Research, 78 % of Fortune 500 companies have outsourced transportation services, 54 % of them have outsourced their distribution services, 46 % of them have outsourced their manufacturing activities.As a result, third-party logistics sector achieved to extent of 50 billion $ throughout the world.Primarily choice of outsourcing in transport and shipping services cause that some companies specialized in this field transform into third-party logistics companies being able to serve in all logistics functions [23].
3PL service providers can be defined as external suppliers which fulfil a portion or all of a company's logistics functions of a company.Logistic functions released to thirdparty companies are services which are required a high level of investment such as especially transportation, storage, distribution as well as services that is business [23].Third-party logistics services are mostly focused attention on transportation and warehousing, etc. and these third-party LSPs should have professional experiences in each service [20] 2.4.Logistics service providers in Turkey.Logistics industry constitutes approximately 10-15% of the total global GDP and is an integral portion of Turkey's economy.The Turkey logistics sector's value in 2008 was 60 billion U.S. dollar.Current size of 3PL service providers is 22 billion U.S. dollar.According to LODER, Turkey's current logistics industry size is estimated to be USD 80-100 billion and is forecasted to reach USD 108-140 billion by 2017.
The average growth in the fields of transportation, storage and communication was 6.4% between 2003 through 2013 [24] According to Logistics Performance Index (LPI) prepared by World Bank, Turkey is ranked 27th with 3.22 point.Turkey moved up from 39th place in 2010 to 27th in 2013, out of the 155 countries in the index.Moreover, it is ranked third in the top 10 upper middle income performing countries.[24,25].According to Agility Emerging Markets Logistics Index prepared by Transport Intelligence, Turkey is ranked as the 11th best country in logistics out of 41 emerging markets [24].
There are a large number of logistics provider firms in Turkey.These are newly founded small and medium sized firms with a transportation background.The most important Turkish logistics service providers are Arkas Denizcilik, Omsan, Barsan, Reysas, Borusan, Balnak, Türksped, and Horoz Lojistik.Rapidly growing trade with Turkey has created a promising perspective for the logistics sector, and the trend is expected to continue.For this reason, international logistics companies are increasing their presence in the country [26].All of the top 10 global third-party logistics companies have understood the strategic importance of Turkey and either directly operate or have agencies in Turkey [24].All major international logistics companies such as DHL, TNT, Kühne & Nagel, Mars, Schenker, Ceva, and Panalpina are already active in Turkey.Initially, firms were focused on only one or a few number of logistics operations, but by the rimes of progress, in order to meet increasing customer demands, LSPs improved their services in term of modern logistics concepts, this structuring compel to logistics firms improve their technological facilities and change management styles in order to offer customer more flexible and quality logistics service [13].
2.5.Selecting Criteria for Evaluating 3 rd party Logistics Service Provider.Deciding to a use a third party LSP is a decision that depends on a variety of factors that differ from company to company.The decision to outsource certain business functions will depend on the company's plans, future objectives, product lines, expansion, acquisitions, etc. [27] Measures indicating the success of logistics management can be summarized as cost reduction, maximized on time delivery, minimized lead times, rapid respond to the market, higher flexibility, increased number of solution alternatives, improved information reliability, faster communication, minimized rate of consumption, damage and loss, minimized number of total inventory through the supply chain, transformation of fixed costs into variable costs, increased efficiency and productivity in logistics activities, reduction of logistics management expenses, focus on core competencies, improved customer relations, customer focus and create win-win relationships in the supply chain [28] The needs of the firm can be satisfied by the third party logistics organization in optimum by defining the firm's goals and selection criteria.To know what metrics are used to evaluate the selection criteria of logistics service provider is an important issue.Generally, the companies have a variety of different characteristics related suppliers; but, if using the same methodology to evaluate the different types of suppliers, the result can not represent the real situation.Therefore, when determining the logistics service provider criteria, it should be considered that the criteria of selection differ in the different types of LSP [20] .
According to Menon et al. [29], the firm's competitiveness strategy and its external environment affect the selection criteria.The important criteria for the selection of a thirdparty LSP are on time shipment and deliveries, superior error rates, financial stability, creative management, ability to deliver as promised, availability of top management, responsiveness to unforeseen occurrences , meet performance and quality requirements before price\discussions occur.Meade and Sarkis [30] developed conceptual model for selecting and evaluating third-party reverse logistics providers.In this study, the most important factors for third-party logistics selection are time, quality , cost, flexibility.Aghazadeh [31] used criteria for selecting effective third-party LSP as similar value, information technology systems, key management.Efendigil et al. [32] select the third party reverse logistics providers by using performance indicators like: on time delivery ratio, confirmed fill rate, service quality level, unit operation cost , capacity usage ratio, total order cycle time, system flexibility index, integration level index, increment in market share, research and development ratio, environmental expenditures, customer satisfaction index.According to Chen and Wu [20] some frequently used criteria from literature are price, delivery performance, range of services provided, the ability of response, human resources, IT capability, speed & punctuality, finance status, past experiences, expertise technology, product reliability, reputation, the quality of service, market share, geographical location and surge capacity.
In 2003, the International Warehouse Logistics Association, which comprises more than 550 logistics companies of North America, identified third-party LSP selection criteria (in a descending order) as following: price, reliability, service quality, on-time performance, cost reduction, flexibility and innovation, good communication, management quality, location, customize service, speed of service, order cycle time, easy to work with, customer support, vendor reputation, technical competence, special expertise, systems capabilities, variety of available services, decreased labor problems, personal relationships, decreased asset commitment, and early notification of disruptions [33] 2.6.Selecting and evaluating methods for 3 rd party Logistics Service Providers.Because of increasing importance of logistics outsourcing, selecting correct third-party LSP is more critical issue for companies.There is lots of factor affecting selection of the service provider.Therefore it is a multi-criteria decision making (MCDM) problem.In the literature, a variety number of techniques are used to evaluate third party performance and some MCDM methods are used to select 3PL service provider.For example, Yan et al. [1] propose a case-based reasoning (CBR) model framework for a thirdparty LSP evaluation and selection system.Thakkar et al. [34] applied an approach integrating interpretive structural model (ISM) and ANP for a proper selection of thirdparty logistics.
Yung et al. [35] used analysis of variance (ANOVA) for financial performance measurement of 3PL.Bottani and Rizzi [36] used the fuzzy TOPSIS for third-party LSP selection and ranking.Min and Joo [37] used data envelopment analysis (DEA) for benchmarking the efficiency of third party logistics providers.
Jharkharia and Shankar [38] used analytic network process (ANP) to select logistics service provider in a medium-sized and growth-oriented fast moving-consumer-goods (FMCG) company.Işıklar et al. [57] proposed an intelligent decision support frameworkintegrating case-based reasoning (CBR), rule-based reasoning (RBR) and compromise programming techniques in fuzzy environment-for effective third-party LSP evaluation and selection.Qureshi et al. [39] used ANP and TOPSIS to evaluate performance of logistics solution providers.Zhang [40] studied the logistics supplier selection based on the analytic hierarchy process (AHP) and data envelopment analysis (DEA).
Liu and Wang [41] proposed an integrated fuzzy approach for the evaluation and selection of third-party LSPs.Their approach method consists of three different techniques: fuzzy Delphi method, fuzzy inference method and, a fuzzy linear assignment approach.Zhang and Feng [42] used fuzzy AHP to discuss a selection approach of reverse logistics provider through a case study.
Kannan et al. [43] developed a multi-criteria group decision making model in fuzzy environment for the selection process of best third party reverse logistics service provider by using two methods; Interpretive Structural Modeling (ISM) and fuzzy technique for order preference by similarity to ideal solution (TOPSIS) in battery manufacturing industry in India.Chen and Wu [20].developed a decision making method combining the Delphi method and analytical network process (ANP), to help the electronic companies that need to evaluate and select the logistics service provider type.Cao et al. [44] developed twostep-model based on borda function theory and gray rational anaylsis to select third-party LSP.Xiao et al [45] used a method integrating AHP and goal programming to select Third-Party Reverse Logistics Enterprise.Wong [46] proposed a methodology combininy fuzzy AHP and preemptive fuzzy integer goal programming to select third-party LSP in global supply chain.Çakır et al. [8] utilized the fuzzy AHP approach to select third-party LSP selection for a medium-sized and growth-oriented fast-moving-consumer-goods (FMCG) company, which is steadily moving towards IT enablement of its supply chain.
Hamdan and Rogers [47] propose a Data Envelopment Analysis (DEA) to evaluate the efficiency of a group of 3PL warehouse logistics operations.Cheng et al. [48] applied the fuzzy AHP method to calculate the relative importance among individual dimensions and sub-criteria on the evaluation of fourth party logistics (4PLs) selection criteria.
Kumar [49] proposed a framework which uses AHPand TOPSIS for performance measurement of third-party LSPs.Soh [33] proposed an evaluation framework and methodology by means of Fuzzy AHP for selecting a suitable third-party LSP through a case study.Li et al. [50] utilized an indicator system and established a compound quantification model based on centralized quantification values, a comparison method based on the synthesis effect, and a third party logistics supplier selection model.
Liu et al. [51] used new integrated model for selecting third-party LSP based on support vector machine (SVM) and fuzzy analytic hierarchy process (FAHP).Kabir [52] proposed FAHP approach based on TOPSIS method for evaluating and selecting an appropriate logistics service provider.
Some of these studies is summarized in Table 1.

Methodology
In this study we used an integrated method via Analytic Hierarchy Process (AHP) and (TOPSIS) with fuzzy logic to select the best logistics service provider.The methodology applies the Fuzzy AHP and TOPSIS to help the decision makers for the evaluation of logistics service providers in a fuzzy environment where the vagueness and subjectivity are handled with linguistic values parameterized by triangular fuzzy numbers.Fuzzy AHP is used to determine the weight to criteria for 3PL rating.It has been further used in TOPSIS to determine weights of evaluation criteria.Fuzzy TOPSIS is a good tool to determine the order preferences of 3PLs, and this method has been used for ranking of service providers and to find the difference between alternatives to ideal [61].
Combining fuzzy AHP with fuzzy TOPSIS, to evaluate the alternatives according to the decision makers's preference orders is very useful when the performance ratings are vague and imprecise.The usage of fuzzy-AHP weights in TOPSIS makes the decisions more realistic and reliable [62].
Methodology used in this study is shown in Figue.2.

FIGURE 2: Methodology of the study
Step 1-Determining the evaluation criteria and alternatives

Step 2. Construction of the hierarchy
Step 3. Determining the weights of the criteria.

Step 4. Construction of the decision matrix
Step 5. Construction of the standard decision matrix.
Step 6. Construction of the weighted standard decision matrix.

Step 7. Construction of Ideal Positive ( * A ) and Ideal Negative (  A ) solutions
Step 8. Calculation of seperation measures.
Step 9. Calculation of relative closeness to Ideal solution.

FUZZY TOPSIS FUZZY AHP
3.1.Selection criteria.The selection and the evaluation stage of the service provider organization will be important after evaluation of those listed criteria.A systematic approach is necessary to make an effective selection among potential service providers.In this study, the most important eight criteria were used in evaluation process of the logistics service providers.In order to support objectiveness in selection process, clear definitions of those criteria are listed and defined in Table 2.

On-time delivery
Deliver a product or service that meets to meet customer requirements against a specification for delivery time.On-t ime delivery is measured as percent achievement within a window of time that brackets the customer-requested date and/or the business' committed date, and is not improved by quoting long lead times and turning down tough business.

Stock et al. [63] Çakır et al. [8]
Price A key determinate in the purchasing decision.It is the price that a good or service is offered at, or will fetch, in the marketplace

Çakır et al. [8]
Özbek and Eren, [64] Product Availability Reaching or to be able to find a product at the time you need or want it.Retailers and manufacturers across the world are losing out to store and brand switching as consumers substitute products which are unavailable or difficult to find.

Reliability
This criterion ensures that products or services are reliable and contribute to overall customer satisfaction.
Lynch [65] Firm background The achievements of the factory in the past concerning the service or the product that has been provided by now will be evaluated in this criterion.

Çakır er al. [8] Özbek and Eren, [64] Firm Reputation
Considered as a component of the identity as defined by others.Reputation is a fundamental instrument of social order, based upon distributed, spontaneous social control.Kabir [52]; Çakır et al. [8]

Knowledge Sharing
Traditional in formation sharing referred to one-to-one exchanges of data between a sender and receiver.These information exchanges are imp lemented via dozens of open and proprietary protocols message and file fo rmats.As criterion, informat ion sharing is a platform that will provide controlled data and informat ion exchange between the customer and the supplier through predefined policies, guidelines and standards to keep privacy, security, and data quality.

Flexibility
The ability of the system to adapt to market demands.In another words, the ability of a system to respond to potential internal or external changes affecting its value delivery, in a t imely and costeffective manner.Thus, flexib ility is the ease with wh ich the system can respond to uncertainty in a manner to sustain or increase its value delivery.

Çakır et al. [8]
Özbek and Eren [64] Kabir [52] 3.2.Fuzzy Sets Theory.To deal with vagueness of human thought, Zadeh [67] first introduced the fuzzy set theory, which was oriented to the rationality of uncertainty due to imprecision or vagueness.A major contribution of fuzzy set theory is its capability of representing vague data.The theory also allows mathematical operators and programming to apply to the fuzzy domain.
A fuzzy set is a class of objects with a continuum of grades of membership.Such a set is characterized by a membership (characteristic) function, which assigns to each object a grade of membership ranging between zero and one.A fuzzy set A ~ in a universe of discourse X is characterized by a membership function ) ( A fuzzy number is a fuzzy subset in the universe of discourse X that is both convex and normal.A triangular fuzzy number (TFN) is shown in Fig. 3.A TFN is denoted simply as (l/m, m/u) or (l, m, u).The parameters 1, m and u respectively denote the smallest possible value, the most promising value, and the largest possible value that describe a fuzzy event [68].The membership functions for these fuzzy sets will be denoted by eq. ( 1) respectively.

FIGURE 3: Membership function of triangular fuzzy number
A linguistic variable is a variable whose values are linguistic terms.Linguistic variables are very useful in relation with situations which are unclear to be described in quantitative expressions.For example, -weight" is a linguistic variable, its values are very low, low, medium, high, very high, etc.These linguistic values can also be represented by fuzzy numbers [69].
are two triangular fuzzy numbers as presented in Fig. 4. Distance between two triangular numbers is calculated from eq. ( 2).Both triangular and trapezoidal fuzzy numbers are used for fuzzy set theory.Using TFNs is preferred because of their computational ease.In this study, it is suitable to work with TFNs because of their computational simplicity, and their usefulness in providing representation and information processing in a fuzzy environment.In this study TFNs in the FAHP is adopted.Reason of using TFNs for pairwise comparisons in fuzzy AHP is that a TFN corresponding to the expressed verbal condition in the pairwise comparison process has only one value which has the highest membership degree [70].

Fuzzy AHP.
The analytic hierarchy process (AHP) is one of the extensively used multi-criteria decision-making methods.One of the main advantages of this method is the relative ease with which it handles multiple criteria.In addition to this, AHP is easier to understand and it can effectively handle both qualitative and quantitative data.The use of AHP does not involve cumbersome mathematics.AHP involves the principles of decomposition, pair wise comparisons, and priority vector generation and synthesis.Though the purpose of AHP is to capture the expert's knowledge, the conventional AHP still cannot reflect the human thinking style.Therefore, fuzzy AHP, a fuzzy extension of AHP, was developed to solve the hierarchical fuzzy problems.In the fuzzy-AHP procedure, the pair wise comparisons in the judgment matrix are fuzzy numbers that are modified by the designer's emphasis [68].
In the fuzzy AHP, triangular fuzzy numbers are utilized to develop the scaling scheme in the judgement matrices, and interval arithmetic is used to the solve the fuzzy Eigen vector [71] The procedure of the fuzzy AHP approach involves four essential steps as follows [72]: Step 1. Define the problem and state clearly the objectives and results Step 2. Decompose the complex problem into a hierarchical structure with decision elements (criteria and alternatives) Step 3. Employ pair-wise comparisons among decision elements and form comparison matrices with fuzzy numbers Step 4. Use the extent analysis method to estimate the relative weights of the decision elements (See [71], [72], [73] for further details).

Fuzzy TOPSIS.
In this study, fuzzy TOPSIS method developed by Chen [74] was used.Method is described as following; 1.0 0.0


Assume that a decision group contains K persons, then the importance of the criteria and the rating of alternatives according to each criterion is computed as in eq. ( 3) and eq.( 4) where K ij x ~ and K j w ~ are the rating and the importance weight of the Kth decision maker.As mentioned above, a fuzzy multicriteria group decision-making problem can be concisely presented in matrix format as ; ; ~j j j j w w w w  . To avoid the complicated normalization formula used in classical TOPSIS, the linear scale transformation is used to transform the various criteria scales into a comparable scale.Hence, the normalized fuzzy decision matrix is indicated by R ~ as in eq. ( 5).
where B and C are the set of benefit criteria and cost criteria, respectively, and The normalization method stated above is to protect the property that the ranges of normalized triangular fuzzy numbers belong to [0, 1].
Considering the different importance of each criterion, the weighted normalized fuzzy decision matrix can be constucted as in eq. ( 8) where . With respect to the weighted normalized fuzzy decision matrix, it is known that the elements j i v ij , ~, are normalized positive triangular fuzzy numbers and their ranges belong to the closed interval [0, 1].Then, the fuzzy positive-ideal solution (FPIS, A * ) and fuzzy negative-ideal solution (FNIS, A − ) can be defined as in eq. ( 9) and eq.( 10) ,..., , ~2 1 (10) where , j=1, 2,..., n.The distance of each alternative from A * and A − can be currently calculated as in eq.( 11) and eq.( 12) where d(., .) is the distance measurement between two fuzzy numbers.
A closeness coefficient is defined in order to determine the ranking order of all alternatives once the * i d and  i d of each alternative A i (i=1, 2, ..., m) has been computed.The closeness coefficient of each alternative (CC i ) is calculated as in eq.(13) .,..., 2 , 1 , Obviously, an alternative A i is closer to the FPIS (A * ) and farther from FNIS(A − ) as CC i approaches to 1. Therefore, according to the closeness coefficient, the ranking order of all alternatives can be determined and the best one can be selected from among a set of alternatives.

Case Study
In this section, we presented an illustrative example by using the methodology shown in Figure 2. The example was performed to select logistics service provider for a tire manufacturing company which has more than 1000 employees in Turkey.Five people working in the logistics department of the company were determined to select evaluation criteria, to make pairwise comparisons for AHP in order to determine weights of criteria, to evaluate alternatives via TOPSIS method.One of them is manager of the logistic department, one of them is chief in the logistic department.Three of them are the normal staffs working in the logistics department Step 1 Determining the evaluation criteria and alternatives.Seven evaluation criteria are determined.These are on time delivery (OTD), Price (P), Product availability (PA), Reliability (R), Firm's background (FB), Firm reputation (FR), Knowledge sharing (KS), and Flexibility (F).
Seven logistics service providers are determined as alternatives.These a lternatives are LSP1, LSP2…, and LSP7 Step 2 Construction of the hierarchy.In this step hierarchical construction of the problem was prepared as shown in Figure 5. Step 3. Determining the weights of the criteria.In this step, first, linguistic variables for Fuzzy importance level are determined as shown in Table 3. [77].Then, criteria are compared pairwisely using linguistic variables as shown Table 4. Then using Fuzzy AHP methodology with Chang Algorithm [78], weights of the criteria are calculated as shown in Table 5. Step 4. Construction of the decision matrix.In this step, first, linguistic variables for fuzzy evaluation of alternatives are determined as sho wn in Table 6.Then alternatives are evaluated by using these fuzzy linguistic variables as presented in Table 7. Then fuzzy decision matrix of fuzzy TOPSIS ( D ~) is constituted as shown in Table 8.
Step 5. Construction of the normalized decision matrix.In this step, the normalized decision matrix is constituted by eq. ( 6) and eq.
Normalized decision matrix for the LSP selection problem is shown in Table 9 Step 6. Construction of the weighted standard decision matrix.
The weighted normalized decision matrix is constituted by multiplying the normalized decision matrix by its associated weights by eq. ( 8).Weighted normalized matrix for the LSP selection problem is shown in Table 10.
Step 9. Calculation of relative closeness to Ideal solution.In this step, the relative closeness to the ideal solution is calculated from eq. ( 13) and alternatives are ranked in descending order according to CC i values.Relative closeness to Ideal solution for LSP selection problem is shown in Table 11.Where the index value of i C lies between 0 and 1, the larger the index value, and the better the performance of the alternatives.According to the closeness coefficient, the ranking order of the three candidates is LSP7, LSP5 and LSP3.Obviously, the best selection is candidate LSP7.

Conclusion
Outsourcing has become a common practice in many industries, specifically in the logistics activities.Because more companies outsource their logistics operations, selecting appropriate and preferable third party LSPs has increasingly become a critical issue and strategic decision for companies outsoursing their logictics operations.This study provides a practical approach and methodology for companies to select the best third party LSP meeting their requirements.LSP selection process started the determination of quantitative and qualitative factors to select the best LSP.In this study LSP provider selection via integrating approach of fuzzy AHP and fuzzy TOPSIS method has been presented.Evaluation criteria were determined as On time delivery (OTD), Price (P), Product availability (PA), Reliability (R), Firm's background (FB), Firm reputation (FR), Knowledge sharing (KS), Flexibility (F).
This study proposes a methodology to provide a simple approach to evaluate alternative LSP firms and help decision maker to select the best one.By using improved AHP with fuzzy set theory the qualitative judgment can be qualified to make comparison more intuition and reduce or eliminate assessment bias in pairwise comparison process.Finally this article defines an approach that integrates fuzzy TOPSIS algorithm with fuzzy AHP to support LSP evaluation and selection decisions.By means of the extent fuzzy approach, the uncertainty in the data could be effectively represented and processed to make a more effective decision.
As a result of this study, alternative LSP7 is determined as the best LSP which has the highest CC i level.The company management found the application and results satisfactory and decided to work with alternative LSP7.
Researchers such as Kabir [52], Kumar [49], Perçin [60], Ravi [59] utilized integrated approach of fuzzy AHP and fuzzy TOPSIS for evaluation performance of third party LSPs and selection of appropriate third party LSPs.Our findings are consistent with their findings for efficient usage and reliable results of the proposed methodology in this study This study has some limitations.One of them is that only qualitative criteria were used to evaluate performance of LSPs.Quantiative criteria can be used together with qualitative data.Another limitation of this study is that any sub criteria are not used as evaluation criteria, only main criteria are used for evaluation.Another limitation of this study is that the focus of the paper is on LSPs of a tire manufacturing company, but the analysis and methodology of 3PL providers selection can be successfully adopted to other sectors.Because this study used a small sample size and was performed in the tyre manufacturing industry, this situation limits the generalization of the results.To generalize the results, similar studies can be performed in different industries with a different data set.
The main contribution of this paper includes application of integrated AHP and TOPSIS framework with support of fuzzy approach to measure the relative strength of the third-party LSPs.We hope this research result can provide the tire companies as the reference and further to select a best logistics service provider partner.
The proposed methodology of this study is easy to implement and quite reliable for ranking the alternatives.Applicability of the proposed methodology has been proposed in a tire company for the selection of the third-party LSPs.The approach can also be applied effectively to help any managerial decision-makings.The findings provide valuable insights for logistics practitioners, academicians and educators.For further research, other multicriteria evaluation methods can be used and the obtained results can be compared with the ones found in this paper.Also, the methodology of third-party LSPs selection can be successfully adapted to other sectors with different data sets

Figure 1 :
Figure 1: Logistics management [12] element x in X a real number in the interval [0, 1].The function value )

FIGURE 5 :
FIGURE 5: Hierarchical structure of the problem

TABLE 1 :
Summary of methods for 3PL providers selection

TABLE 4 :
Pairwise Comparison of Criteria with Linguistic Variables

TABLE 5 :
Fuzzy Weights of Criteria

TABLE 7 :
Evaluation of alternatives with linguistic variables

TABLE 11 :
Separation measures and relative closeness to ideal solution