A Performance Evaluation Model of a Job Title using Fuzzy

Approach

Hatice Esen, Tuğçen Hatipoğlu and Ali İhsan Boyacı

Department of Industrial Engineering, Kocaeli University, Umuttepe, Kocaeli, Turkey

Keywords: Human Resources Management, Performance Evaluation, Fuzzy Logic.

Abstract: Performance evaluation is described as comparing the performance of workers and the work standards and

handling the necessary activities in a systematic way to attain these standards. What makes performance

measure a necessity is its focus on performance of personnel as an objective measure of whether the

company goes in the correct direction or not. This is because the most important problem encountered in

organizations is the difficulty in the determination of how successful the personnel are in the satisfaction of

their duties and what are their capabilities in their jobs. Besides performance evaluation is a decision

making process which involves uncertainty. To overcome the uncertainty and evaluate the workers

performance objectively, a performance evaluation model is developed of which the criteria are defined as

the fuzzy numbers and the linguistic variables. The scope of the study is to determine the performance

evaluation criteria of a purchasing specialist and weight for evaluating this job title.

1 INTRODUCTION

Human resource management is associated with a

larger productivity and efficiency, better customer

service, increased firm value, profitability and

organizational survival (Stavrou et al., 2007).

Performance evaluation, one of the most important

tools of modern human resource management, is a

crucial management process for both personnel and

organization. In performance evaluation, the aim is

to understand the current situation of an individual

and organization and react according to this

situation. As shown in a research, performance

evaluation information is used specifically in four

area; decisions demanding inter-personal

comparisons (salary determination, promotion etc.),

decisions demanding personal comparison

(feedback, personal educational need, etc.),

decisions orientated to the continuation of the

system (target determination, human force planning,

etc.) and documentation (Gürbüz and Albayrak,

2014).

What makes performance measure a necessity is

its focus on performance of personnel as an

objective measure of whether the company goes in

the correct direction or not. This is because the most

important problem encountered in organizations is

the difficulty in the determination of how successful

the personnel are in the satisfaction of their duties

and what are their capabilities in their jobs. Every

worker has different expectations from the future,

senses of duty, capabilities, knowledge and talent,

and working discipline. These differences caused by

the nature of human separate the performances of

them as well. Some personnel can completely satisfy

the duties expected from them while some can not.

Thus, managers want to know the capabilities of the

personnel under their order and their success in their

jobs. Because of that, to monitor whether the

personnel work in accordance with the targets

determined, the performance evaluation criteria are

required (Kılıç, 2011).

Performance evaluation criteria generally depend

on the individual’s characteristics, behavioral

criteria, and the results and aims about the job. But

there are two common important problems about the

criteria used to evaluate workers’ performance. First

of all, the criteria used in performance evaluation are

assumed to be related only with job. It is crucial to

define the indicators describing the aims of work

performance. There is not a universal criteria bundle.

The work analysis is the main guide to identify the

performance criteria for a certain job title. If a

criterion isn’t related with the work, then it shouldn’t

be a part of performance evaluation. Secondly, when

Esen H., Hatipo

glu T. and Boyacı A..

A Performance Evaluation Model of a Job Title using Fuzzy Approach .

DOI: 10.5220/0005076500530060

In Proceedings of the International Conference on Fuzzy Computation Theory and Applications (FCTA-2014), pages 53-60

ISBN: 978-989-758-053-6

 2014 SCITEPRESS (Science and Technology Publications, Lda.)

a criterion is selected to evaluate the work

performance, the measurements should be correct

and precise. In this study, a model is proposed to

identify and objectively weight the criteria for each

job position as explained above.

One of the most difficult functional areas for

evaluation is still the purchasing department. Due to

the increasing competition in the globe,

organizations are required to evaluate their internal

operations and decrease the costs by making them

excellent. One of the biggest element of cost is

purchasing spend, which is generally equal to 40–

70% of a firm’s sales volume (depending upon the

degree of vertical integration in the industry), and

thus is a source of increasing competitive advantages

(Saranga and Moser, 2010). The role of purchasing

comprises of communicating with suppliers to

decrease redundancies and increase efficiencies in

the supply chain. The strategic role of purchasing

makes it crucial to measure its performance (Easton

et al., 2002).

Due to the reasons of mentioned explanation and

understanding the model better, the criteria for

purchasing specialist position are identified and

weighted.

In the second part of the study, the methodology,

Fuzzy Analytic process, is explained. In the third

section, the proposed performance evaluation model

is detailed. The last section of the study is comprised

of the results and comments about the application.

2 FUZZY ANALYTIC

HIERARCHY PROCESS

METHOD

In Analytical Hierarchy Process (AHP), a flexible

and structured methodology, complex decision

variables are structured into a hierarchical

framework to solve and analyze them (Boroushaki

and Malczewski, 2008). Human thinking and

judgment are ambiguous and it is not meaningful to

represent them with point numbers. Interval

judgments better represent them than precise value

judgments. Thus, the priority between decision

variables is decided according to the triangular fuzzy

numbers. The final priority weights are found with

synthetic extent analysis method and this is called as

fuzzy extended AHP (Chan and Kumar, 2007).

Thus, using fuzzy theory in AHP is more reasonable

and effective than classic AHP.

There are various AHP methods related to the

fuzziness, while the most popular one is Chang’s

approach. Chang established the extent analysis

method (EAM) for synthetic values of pair wise

comparisons with the use of triangular fuzzy

numbers (TFNs) (Heo et al., 2012).The triangular

fuzzy conversion scale, given in Table 1, is used in

the evaluation model of this paper.

Table 1: Triangular fuzzy scale of preference.

Relative

importance

Definition

Fuzzy

Scale

Fuzzy

Reciprocal

Scale

Equally

Importance

(1,1,1) (1,1,1)

Moderate

Importance

(1,3,5) (1/5,1/3,1)

Strong

Importance

(3,5,7) (1/7,1/5,1/3)

Demonstrated

Importance

(5,7,9) (1/9,1/7,1/5)

Extreme

Importance

(7,9,9) (1/9,1/9,1/7)

Let 





xxx ,,,



be an object set, and 





uuu ,,,



be a goal set. According to the method

of Chang’s extent analysis, each object is taken and

extent analysis for each goal, g

, is performed,

respectively. Therefore, m extent analysis values for

each object can be obtained, with the following

signs:









,







,…,







i = 1, 2, …, n (1)

Where all the 







(j = 1, 2, …, m) are triangular

fuzzy numbers.

The steps of Chang’s extent analysis can be

given as in the following:

Step 1: The value of fuzzy synthetic extent with

respect to the ith object is defined as







∑









⨂

∑∑

























(2)

To obtain

∑













, perform the fuzzy addition

operation of m extent analysis values for a particular

matrix such that

∑











∑









∑





∑





















(3)

FCTA2014-InternationalConferenceonFuzzyComputationTheoryandApplications

and to obtain

∑∑





















, perform the fuzzy

addition operation of 







(j= 1,2, …,m) values such

that

∑∑



















∑











∑





∑















(4)

and then compute the inverse of the vector in

equation (4) such that



∑∑

























∑











∑











∑











(5)

Step 2: The degree of possibility of M

= (l

, m

) ≥ M

= (l

, m

, u

) is defined as

V (M

≥ M

) =



min











,













(6)

and can be equivalently expressed as follows:

V(M

≥M

)=hgt(M

∩M

)

=













1, 







0,







































(7)

where d is the ordinate of the highest intersection

point D between 





and





(see figure 1).

To compare M

and M

, we need both the values

V(M

≥ M

) and V(M

≥ M

Figure 1: The intersection between M

and M

Step 3: The degree possibility for a convex fuzzy

number to be greater than k convex fuzzy numbers

(i=1, 2, ., k) can be defined by.

V(M

≥ M

, M

, …, M

)= V [ (M

≥ M

) and

≥ M

) and … and (M

≥ M

) ]

= min V(M

≥ M

), i = 1, 2, …, k

(8)

Assume that

d’(A

) = min V(S

≥ S

(9)

For k = 1, 2, …, n; k ≠ i. Then the weight vector

is given by

W’ = (d’(A

), d’(A

), …, d’(A

))

;

(10)

where A

(i = 1, 2, …, n) are n elements.

Step 4: Via normalization, the normalized weight

vectors are

W = (d(A

), d(A

), …, d(A

))

(11)

where W is a nonfuzzy number (Kahraman et al.,

2004) .

3 PROPOSED PERFORMANCE

EVALUATION MODEL

The determination of personnel to be hired and/or

fired is a troublesome issue for many companies.

Both hiring and firing operations require a correct

measure and evaluation system. A company that has

enough and correct information about the personnel

can easily decide on a fair wage-increase policy and

the personnel to be hired. Performance evaluation

studies are crucial for these kinds of purposes as

well as in the determination of training needs and

career planning (Özdemir, 2002).

The scope of the study is to determine the

performance evaluation criteria of a purchasing

specialist and weight for evaluating this job title.

The application of the model is made at a company

in automotive supplier industry at Kocaeli. After

meeting with the executives of the company, the

boundary of the study has been determined and a

team has been created including an academic expert,

production manager, HR manager, purchase

manager, and logistics and supply manager.

First of all, the aim, importance and framework

of the study has been discussed, then the criteria

found by brainstorming has been noted in the team’s

meeting that was organized to discuss the criteria to

be used in performance measure. The criteria draft

has been evaluated again; whether they can be

measured, or they can be represented by another

criterion and whether there are any missing criteria

has been discussed. After this evaluation, the criteria

are finalized. Every criterion has been described in

APerformanceEvaluationModelofaJobTitleusingFuzzyApproach

detail to prevent any misunderstanding about their

meaning during their usage.

The proposed model makes the performance

evaluation by using three main criteria. These main

criteria are Decision Making and Leadership,

Communication and Relations and Technical skills.

The Decision Making and Leadership, and

Communication and Relations criteria and their sub-

criteria can be mutually used in the evaluation of all

job titles. The sub-criteria under the main criterion

of Technical skills changes according to the job title.

To make the model more understandable, the

weights used in the performance evaluation of the

job title “Purchasing Specialist” are identified. The

sub-criteria under technical skills are flexible

enough to be used for another job title. The

hierarchy belonging to the proposed performance

evaluation of “Purchasing Specialist” in the model

can be seen in Figure 2.

The decision structure has two levels;

First level (Level of determinants), determinants

of the performance evaluation are determined as

Decision Making and Leadership (DML),

Communication and Relations (CR) and Technical

Skills (TS).

Second level, this level consists of 16 sub-

criteria. Six sub-criteria about Decision Making and

Leadership are Problem solving and result

orientation (PS), Agility (AG), Adaptability (AD),

Team building and management (TB), Project

management (PM) and Strategy Elaboration (SE).

Four sub-criteria about Communication and

Relations are dealing with organization (DO),

Communication (C), International Mindset (IM) and

Interpersonal Skills (IS). Six sub-criteria about

Technical Skills are Negotiation Practice (NP),

purchasing tools practice (PT), financial awareness

(FA), Supply chain knowledge (SK), Legal

awareness (LA) and Budget management (BM). The

explanation of sub-criteria is given below:

Decision Making and Leadership:

1) Problem solving and result orientation (PS):

Ability to detect, design and implement solutions

adapted to situations and people (evaluate, diagnose)

applying QRQC (Quick Response Quality Control).

Identification and weighting of important

parameters, identification of causes, priorities and

development of solutions. Ability to achieve results

regardless of circumstances, but not at any cost.

Focus on pragmatic and practical tasks and ability to

act in the field. Willingness and ability to meet

commitments.

2) Agility (AG): Ability to combine speed and

rationality in decision making followed by the

implementation of an action plan. Ability to react to

requests and situations within the required time

constraints. Capability to manage a heavy work load

in a stressed environment and ability to deal with

urgencies.

3) Adaptability (AD): Ability to adapt easily to

different working environments. Functioning in a

matrix environment or with occasional apparently

contradictory issues. Analysis of problems from

several points of view, including the points of view

of others.

4) Team building and management (TB): Ability

to manage and coach people, to create a team spirit,

to establish (common and individual) objectives and

to assess performance and competences. Efficient

delegation of appropriate tasks. Management of

structural conflicts. Ability to select and recruit team

members. Integration of the team inside the

structure. Focus on people development. Gathering

of different personalities and mobilization of them

towards common objective.

5) Project management (PM): Ability to plan

resources in order to manage a project successfully

according to standards (quality, cost, delivery) for

customer satisfaction. Establishment of clear,

realistic timeframes for goal accomplishment.

6) Strategy Elaboration (SE): Ability to anticipate

future evolutions (helicopter view), to define vision,

objectives, strategic action plans and milestones in

order to meet objectives and to implement their

strategic plans.

Communication and Relations:

1) Dealing with organization (DO): Ability to deal

with organizational complexity, internal and external

stakeholders.

2) Communication (C): Ability “get the point

across” and to get the “buy-in” of the target

audience. Selection of the most pertinent

information, reliable sources, appropriate

population, the best medias. Definition and

organization of the content (according to different

cultures and levels) at the appropriate time.

Enhancement of information sharing and feedback.

Openness to listen to other options and to take them

into consideration. Ability to analyze complicated

situations.



FCTA2014-InternationalConferenceonFuzzyComputationTheoryandApplications

Figure 2: Hierarchies in the AHP.

3) International Mindset (IM): Ability to work

with people from different cultures. Integration of

other cultural values and systems and development

of cultural of open mindedness. Ability to think

global, act local.

4) Interpersonal Skills (IS): Ability to develop

interactive listening skills and to give constructive

reinforcement. Ability to deal with interpersonal

conflict. Ability to influence in a positive way the

work of colleagues through enthusiastic

communication.

Technical Skills:

1) Negotiation practice (NP): Ability to

prepare the negotiation strategy and tactics base on

assessment of company’s levers versus suppliers.

Knowledge of his/her limits and supplier’s decision

drivers. Ability to conduct the negotiation in a

professional manner ensuring a win-win deal.

Ability to obtain closure.

2) Purchasing tools practice (PT): Knowledge

of purchasing tools: methodology tools (commodity

matrix, system audit, process audit, initial

assessment, etc), analysis tools (market surveys,

etc), transaction tools (weekly report, EDI, MRP

system, etc)

3) Financial awareness (FA) : Understanding

of financial reports. Understanding of management

accounting and different methods to establish a price

and to evaluate the financial health of a supplier.

4) Supply chain knowledge (SK): Ability to

use supply chain knowledge to contribute to the

optimization of the supply chain together with

logistics department and supplier.

5) Legal awareness (LA): Ability to formalize

the contractual relationship in all domains

(confidentiality, development, supplies, equipment

etc). Ability to manage supplier disputes and major

crises with the help of the legal counsel. Ability to

use the law to elaborate his/her commodity strategy.

6) Budget management (BM): Ability to

evaluate all necessary resources and their costs in

order to achieve a target. Ability to manage a

budget. Evaluation and anticipation of the financial

impact of new decisions. Management of situation

changes and minimization of excess costs.

The triangular fuzzy conversion scale, given in

Table 1, is used in the evaluation model of this

study. Fuzzy pair-wise comparisons of three main

decision criteria on “Performance Evaluation” are

presented in Table 2. Then the sub-criteria are pair

wise compared in Table 3-5 respectively and

weights are calculated.

Communication

and Relations

Performance Evaluation

Decision Making

and Leadership

Technical skills

Problem solving and result

orientation

Agility

Adaptability

Team building and management

Project management

Strategy elaboration

Interpersonal skills

Dealing with organization

Communication

International mindset

Negotiation practice

Financial awareness

Supply chain knowledge

Legal awareness

Budget management

Purchasing tools practice

APerformanceEvaluationModelofaJobTitleusingFuzzyApproach

Table 2: Fuzzy linguistic preference relation decision matrix of three main criteria.

 DML C TS

DML 1 1 1 1/5 1/3 1 1/7 1/5 1/3

C 1 3 5 1 1 1 1/5 1/3 1/1

TS 3 5 7 1 3 5 1 1 1

Table 3: Fuzzy linguistic preference relation decision matrix of decision making and leadership.

 PS AG AD TB PM SE



PS 1 1 1 1/7 1/5 1/3 1/5 1/3 1 3 5 7 1 3 5 5 7 9

AG 3 5 7 1 1 1 1 3 5 3 5 7 3 5 7 7 9 9

AD 1 3 5 1/5 1/3 1 1 1 1 3 5 7 1 3 5 5 7 9

TB 1/7 1/5 1/3 1/7 1/5 1/3 1/7 1/5 1/3 1 1 1 1/5 1/3 1 3 5 7

PM 1/5 1/3 1 1/7 1/5 1/3 1/5 1/3 1 1 3 5 1 1 1 1 3 5

SE 1/9 1/7 1/5 1/9 1/7 1/5 1/9 1/7 1/5 1/7 1/5 1/3 1/5 1/3 1 1 1 1

Table 4: Fuzzy linguistic preference relation decision matrix of communication and relations.

 DO C IM IS

DO 1 1 1 1/5 1/3 1 3 5 7 1 3 5

C 1 3 5 1 1 1 5 7 9 3 5 7

IM 1/7 1/5 1/3 1/9 1/7 1/5 1 1 1 1/5 1/3 1

IS 1/5 1/3 1 1/7 1/5 1/3 1 3 5 1 1 1

As seen in Table 2; S

DML

= (0.060, 0.103, 0.273),

= (0.099, 0.291, 0.819) and S

= (0.224, 0.605,

1.522) are calculated. Then W’ = (0.089, 0.655,

1.000) is obtained and priority weights vector of

each main criteria is W = (0.051, 0.376, 0.573)

Similarly priority weights vector of each main sub-

criteria is seen in Table 3, W = (0.2347, 0.3411,

0.2700, 0.0491, 0.1052, 0)

, in Table 4 W = (0.351,

0.493, 0, 0.156)

and in Table 5 W = (0.368, 0.291,

0.065, 0.072, 0, 0.204)

Table 6 shows overall or global importance

levels of for the main criteria and sub-

criteria.According to these results, performance

evaluation of purchasing expert is evaluated as

following:

It is further observed that the priority of the main

criteria “Technical Skills” with %57 is highest

followed by “Communication and Relations” with

%38 while “Decision Making and Leadership” is

just %5.

In case of sub criteria the priority is highest for

“Negotiation practice”, “Purchasing tools practice”

and “Budget management” respectively under

“Technical Skills” ; “Communication” and “Dealing

with organization” among “Communication and

FCTA2014-InternationalConferenceonFuzzyComputationTheoryandApplications

Table 5: Fuzzy linguistic preference relation decision matrix of technical skills.

 NP PT FA SK LA BM

NP 1 1 1 1 3 5 3 5 7 5 7 9 7 9 9 3 5 7

PT 1/5 1/3 1 1 1 1 3 5 7 3 5 7 5 7 9 1 3 5

FA 1/7 1/5 1/3 1/7 1/5 1/3 1 1 1 1/5 1/3 1 5 7 9 1/7 1/5 1/3

SK 1/9 1/7 1/5 1/7 1/5 1/3 1 3 5 1 1 1 1 3 5 1/5 1/3 1

LA 1/9 1/9 1/7 1/9 1/7 1/5 1/9 1/7 1/5 1/5 1/3 1 1 1 1 1/7 1/5 1/3

BM 1/7 1/5 1/3 1/5 1/3 1 3 5 7 1 3 5 3 5 7 1 1 1

Table 6: Global importance levels of sub-criteria.

Global importance

of three main

criteria

Global

importance

of sub-criteria

Weights

Decision Making

and Leadership

(0.051)

PS (0.235)

0.012

AG (0.341)

0.017

AD (0.270)

0.014

TB (0.049)

0.002

PM (0.105)

0.005

SE (0)

0.000

Communication

and Relations

(0,376)

DO (0.351)

0,132

C (0.493)

0,185

IM (0)

0,000

IS (0.156)

0,059

Technical skills

(0.573)

NP (0.368)

0,211

PT (0.291)

0,167

FA (0.065)

0,037

SK (0.072)

0,041

LA (0)

0,000

BM (0.204)

0,117

relations”; “Agility”, “Adaptability” and “Problem

Solving and Result Orientation” among “Decision

Making and Leadership”.

4 CONCLUSIONS

Performance evaluation study should focus on

personnel. In organizations, performance evaluation

starts and ends with human component along with

the systems related to human. Personnel can easily

disrupt the organization’s structure when they are

incompatible with the other people in the working

environment. Thus, performance evaluation which

tries to increase the harmony of personnel with

organization has a great importance for

organizations (Boduroğlu, 2013).

Besides being the most important part of an

effective human resource management strategy,

performance evaluation is one of the most important

elements to reach the objectives of organizational

management. Performance evaluation should be

used as a tool to direct, stimulate, increase the

motivation and the trust of workers through the

organization. The most important part of the

evaluation is to make it as objective as possible.

The contributions of this study into the literature

can be summarized as follows; 1. The proposed

model can be used for other job titles in companies

by allowing flexibility in the criteria under the main

criterion of technical skills. 2. The current

performance evaluation models don’t weight the

criterion assuming that they all have the same

importance. The proposed model has such a

structure and objectivity to satisfy this lack of

current models. 3. Performance evaluation is a

decision making process which involves uncertainty.

To overcome the uncertainty and evaluate the

workers performance objectively, a performance

evaluation model is developed of which the criteria

are defined as the fuzzy numbers and the linguistic

variables.

The evaluation process of the performance can

be thought as a complex multi-criteria decision

making problem considering multiple factors and

sub factors affecting the evaluation. Fuzzy AHP

method enables decision-makers to realize a

hierarchical structure and an effective vague

APerformanceEvaluationModelofaJobTitleusingFuzzyApproach

assessment of main and sub factors’ weights. Hence,

we used a fuzzy approach for the evaluation of

personnel performance. By utilizing fuzzy AHP

method, the weights of sub factors are determined

subsequently.

By applying the model into a company operating

as an automotive supplier, it has been shown that the

model can be used in practice without any difficulty.

During the application, the weighing of the specific

criteria used in the performance evaluation of to

purchasing specialist has been done. The main

criteria are ordered as Technical Skills,

Communication and Relations and Decision Making

and Leadership as a result of the evaluation. The

most important sub-criteria are identified as

Negotiation practice, Communication and

Purchasing tools practice.

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FCTA2014-InternationalConferenceonFuzzyComputationTheoryandApplications