masters thesis in service management - diva...
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MASTERS THESIS IN SERVICE MANAGEMENT
The effectiveness of SERVQUAL in measuring
service quality and the impact of technology on
customer satisfaction
Prepared by:
Kungaba Cedric Pefok
Mikhailov Andrey
Supervisor:
Dr.Per Skalen
Service Research Center (CTF)
Hand in Date: 24 May 2010
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Abstract
Service quality and customer satisfaction is becoming increasingly important in today‟s
business environment which is characterised by fierce competition between the service
providers. In this regard it is very imperative that companies assess themselves by measuring
service quality. Consequently, areas of the service with low service quality would be
identified and improved. Therefore, this thesis focuses on the effectiveness of SERVQUAL in
measuring service quality and reveals the positive impact technology has on customer
satisfaction in public transportation. To do this, we developed a questionnaire within the
framework of the SERVQUAL dimensions of reliability, responsiveness, assurance, empathy
and tangible. With a scale of 1 to 7, respondents of our questionnaire who are users and
customers of the public bus companies; Karlstad city bus which we labelled business level
1(B1) and intercity buses like Swebus and Värmland Trafik which we labelled business level
2 (B2) were able to evaluate the service quality of these companies by grading them. Based on
the results of our research in which we asked respondents to mention some of the areas of the
service process in which they had encountered unfavourable service experiences, we were
able to determine the areas of the service process from which the customer complaints came
from. We compared these results with the customer complaints received by the management
of the public Bus Company and noticed that they were similar. Majority emerged from areas
of the service process whereby the customer came in contact with the employees or the
service failure could be directly associated with the employee. After comparing these
complaints with the results of questions in our questionnaire developed within the framework
of the SERVQUAL dimensions, we noticed that those questions with larger GAP 5 implying
lower service quality were actually a reflection of the areas of the service process from which
customer complaints came from. In this regard, we were able to conclude that SERVQUAL
was effective in measuring the service quality in public transportation. In addition, we ranked
the questions in the questionnaire and noticed that those areas of the service process whereby
the employees and the customers interact (come in contact) or whose service failure can be
directly associated with an employee had low grades and ranked below the mean and median
of all the questions in the various dimensions, whereas those areas of the service process
where technology is used or customers had the opportunity to make use of Self Service
Technology ranked above the mean and median. This was a clear indication that technology is
a service quality driver and positively impacted customer satisfaction in public transportation.
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Table of Contents
Abstract ...................................................................................................................................... 1
1 Introduction ............................................................................................................................. 4 2 Theoretical backgrounds ......................................................................................................... 9
2.1 What is Service Quality? .................................................................................................. 9 2.1.1 Services and service quality in Public transportation .............................................. 10 2.1.2 Customer expectation and Perceived service value ................................................ 12
2.1.2.1 What is customer expectation? ............................................................................. 12 2.1.2.1 What is perceived service value? ......................................................................... 12
2.2 SERVQUAL and Service Quality .................................................................................. 13 2.2.1 The Strength of SERVQUAL in measuring service quality ................................... 16 2.2.2 The limitations of SERVQUAL in measuring service quality ................................ 18
2.3 Technology and Customer Satisfaction .......................................................................... 19 2.3.1 Self-Service Technology (SST) .............................................................................. 19
2.3.1.1 Types of Self-Service Technology ....................................................................... 20 2.3.2 Customer Readiness (CR) and Technology Readiness (TR) .................................. 22 2.3.3 Customer Value (CV) and Technology ................................................................... 23 2.3.3.1 Factors that make technology increase customer satisfaction in services (Public
Transportation) ................................................................................................................. 24 2.3.3.2 When something goes wrong – Attribution of blame while using SSTs ............. 26
2.4 Quality drivers in services and how technology could enhance the effectiveness and
efficiency of quality drivers ................................................................................................. 27 3 Methodology ......................................................................................................................... 30
3.1 The Companies (City buses: Karlstad City Bus and Intercity buses: Swebus, Värmland
Trafik). .................................................................................................................................. 30
3.2 Data Collection (Questionnaire, sample size and data description) ............................... 34 3.2.1 Questionnaire design ............................................................................................... 34 3.2.1.1 Section 1: SERVQUAL Dimensions ................................................................... 34
3.2.1.2 Section 2 - Complaint Behaviour and Real Incident Question ............................ 39 3.2.2 Sample Size, sampling method and description of data set .................................... 40
3.2.2.1 Sample size ........................................................................................................... 40 3.2.2.2 Sampling Method and interviews ......................................................................... 41
3.2.2.3 Description of sample (Data set) .......................................................................... 42 3.3 Data analysis .................................................................................................................. 43
4 Results ................................................................................................................................... 45
4.1 Step 1: Results of questions data from section 1 of the questionnaire ........................... 45 4.1.1 Means according to the five dimensions ................................................................. 45
4.1.2 Raking at industry level ........................................................................................... 46 4.2 Step 2: Results of customer complaints from our survey and that received by the
management of SWEBUS. ................................................................................................... 54 4.3 Step 3: Comparison of results in step1 and step 2 to answer research questions ........... 57
4.3.1 Is SERVQUAL effective in measuring service quality? ......................................... 57 4.3.1.1 The perspective of the SERVQUAL dimensions at industry level and business
level .................................................................................................................................. 57
4.3.1.2 The ranking of the questions in section 1 at industry level and the comparison
with the complaints results ............................................................................................... 60 4.3.1.3 The effectiveness of SERVQUAL in measuring service quality while taking into
consideration the impact of differences in service characteristics ................................... 64 4.3.2 Does the use of technology increase customer satisfaction in public transportation?
.......................................................................................................................................... 66
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4.3.2.1 Ranking of the questions relating to technology at industry level ....................... 66
5 Discussion ............................................................................................................................. 71 5.1 What are the implications of the results and what can we learn from this research? ..... 71 5.2 Managerial implications ................................................................................................. 75
5.1.1 SERVQUAL ............................................................................................................ 75 5.1.2 Technology .............................................................................................................. 76
6 Conclusion ............................................................................................................................. 77 6.1 Effectiveness of SERVQUAL in measuring service quality ......................................... 78 6.2 The impact of technology on customer satisfaction ....................................................... 79
6.3 Recommendations .......................................................................................................... 80 References ................................................................................................................................ 81
Appendix I ……………………………………………………………………………………95
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1 Introduction
SERVQUAL is a 22-item instrument that includes the five service dimensions of tangibles,
reliability, responsiveness, assurance, and empathy. Parasuraman et al. (1985, 1988, 1991)
postulated that the SERVQUAL items represented “core evaluation criteria that transcend
specific companies and industries, providing a basic skeleton underlying service quality that
can be supplemented with context-specific items when necessary”(Masood et al, 2003;2004,
p.819). SERVQUAL has emerged as perhaps the most popular standardized questionnaire to
measure service quality (Frost and Kumar, 2001, p. 372). It has been widely used in many
research studies to measure service quality in various sectors of the service industry including
the public transportation industry like the Airline (Fick and Ritchie, 1991; Young et al., 1994;
Frost and Kumar, 2001) and also transportation and shipping (Frost and Kumar, 2001; Sultan
and Merlin, 2000; Durvasula et al., 1999). According to Cavana, Corbett & Lo (2005), Badri,
Abdulla & Al-Madani (2004), it has been tested and used by many researchers in the field of
service quality in various research settings apart from transportation like Care hospital
(Bowers et al., 1994; Carman, 1990; Lam,1997), Bank (Cronin and Taylor, 1992; Llosa et al.,
1998; Parasuraman et al., 1988,1991b), Hotel (Fick and Ritchie, 1991), restaurant (Fick and
Ritchie, 1991), Education (Oldfield and Baron, 2000; Kwan and Ng, 1999; Ekinci and Riley,
1999); Public services (Wisniewski, 2001; Brysland and Curry, 2001; Carman, 1990; Orwig
et al., 1997); Professional services (Hoxley, 2000; Philip and Hazlett, 2001; Bojanic, 1991);
Retailing (Mehta et al., 2000; Finn and Lamb, 1991); Catering (Johns and Tyas, 1996). Bruhn
& Georgi (2006) also acknowledge that SERVQUAL is the most accepted approach to
measure service quality. In addition, the GAP model has already gone through a complete
building process since 1985 and it has been fully tested afterwards. Many other researchers
have used the SERVQUAL dimensions as the basis for their research, and consequently
SERVQUAL “has undoubtedly had a major impact on the business and academic
communities” (Buttle, 1996, p. 24), and has been said to be “insightful and [to remain] a
practical framework to use in service quality management” (Christopher et al. 2002, p. 177).
Therefore, based on this argument, it is clear that SERVQUAL is an instrument that could be
used to fulfil the purpose of measuring perceived service quality from the customer‟s
perspective in this industry. The developers of SERVQUAL contend that the scale using the
expectation and performance gaps method is a much richer and effective approach to
measuring service quality (Parasuraman et al., 1985, 1988, 1994). They point out that service
quality is a multidimensional rather than a uni-dimensional construct. In this regard, we
believe that the scales make it possible to measure every individual‟s perception of service
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quality taking part in a survey, thus enabling the survey to capture and measure service
quality as perceived by a wide range of people. We also believe that it is only by so doing that
a survey can best capture the cultural, personality traits and other factors that may influence
customers‟ perception of quality. Remember, the view of every single customer counts,
especially if a service has to be improved and also when developing a service recovery plan.
In addition, the scaling method is responsive to the notion that service quality is a
multidimensional rather than a one-dimensional construct. In addition, service quality cannot
be viewed only from one item. It is a combination of several aspects as perceived by the
customer based on his or her experiences and knowledge and all these aspects go a long-way
to influence their expectations. So a gap between these expectations and current service
performance is a more appropriate way to read the minds of customers as well as their
emotional feelings towards a service. Remember, emotions also influence our perception of
quality and therefore measuring service quality from a broad base is the best way and we
think that SERVQUAL is the most appropriate instrument that can effectively „capture‟ these
aspects. This brings us to the first research question of our thesis which is as follows:-
Is SERVQUAL effective in measuring service quality in public transportation?
The improvement of information technology has inevitably led to the replacement of
conventional face-to-face services with innovative self-service technologies (SST), such as
digital bus tickets, on-line GPS schedule of bus lines, etc (Hensmans et al., 2001; Waite,
2006). According to the theory of service dominant logic (Vargo and Lusch, 2004) the
application of self-service technologies (SST) with an idea of customers serving themselves
through technology-based systems are also applied in public transportation companies. In
recent years the importance of technology received recognition as being of critical importance
in the process of service delivery (Bitner, Brown, and Meuter 2000; Dabholkar 1994, 1996;
Parasuraman 1996; Quinn 1996). It is also suggested that the traditional marketplace
interaction is being replaced by a market space transaction (Rayport and Sviokla 1994, 1995).
The market space is defined as “a virtual realm where products and services exist as digital
information and can be delivered through information based channels” (Rayport and Sviokla
1995, p. 14). Self-service technologies are a classic example of market space transactions in
which no interpersonal contact is required between customer and service provider. SST allows
customers to complete entire services (service process) on their own without direct assistance
from employees (Bitner et al., 2002) and that is achieved with advanced technological
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systems that access digital information (Lee and Allaway, 2002; Meuter et al., 2000). A self-
service model suggested by Globerson and Maggard (1991) is meant to predict customer
acceptance of SST based on seven factors: convenience, time saved, self-control, money
saved, self-image, risk, and self-fulfillment. Meuter et al. (2000) reported that the level of
customer satisfaction with technology-based services depend on its ease of use, ability to
avoid interference from employees, time savings, convenience, and financial savings, with the
most important factors affecting the adoption of SST being: ease of use and time savings. The
technology acceptance model (TAM) identifies two factors of major importance: ease of use
and usefulness as criteria that influence customers‟ acceptance of new technology (Davis,
1989; Davis et al., 1989). Dabholkar (1996) had further developed this model, proposing an
attribute-based model of SST consisting of five factors: speed of delivery, ease of use,
reliability, enjoyment, and control; the feeling of “self-control” makes is easier of customers
to accept new technology (Globerson and Maggard, 1991; Lee and Allaway, 2002). The
involvement of technology in the bus services enables customers to book, buy, and exchange
tickets without any direct interaction with the employees. In addition, recent studies capture a
rapid growth in Internet-based transactions (Hof 1999). The positive impact of technology on
customer satisfaction is a reality because self service technology has provided a „platform‟ for
customers to become co-producers of services, thus creating value from the customers‟
perspective. The potential customer has a choice: engage in self-service, (for example, do it
yourself activity) or go to the marketplace. To be successful at self-service, the entity must
have sufficient physical and mental skills and/or the appliances (embedded with knowledge)
to make self-service possible (Lusch and Vargo, 2004). Customers are also co-creators and
can contribute enormously towards value creation and cost reduction. The perceived cost
advantage of a service has a positive impact on a relationship value and overall perceived
service quality. The role of customers as co-creators and co-producers of value in services
gives the opportunity for cost reduction which reduces operational cost and strengthens bonds.
For example, some services provide the opportunity for customers to serve themselves, thus
reducing cost of operation which is then passed on to customers through lower prices. Hence,
this significantly increases customer perceived value. According to Bruhn and Georgi, (2006,
p.444) “Customers attribute a value to a service used according to the benefits (for example,
perceived service quality) and the cost (e.g price paid) they perceive in the context of using
the service.” Monroe (1991) claims that many customers value cost reductions more than
benefits when assessing value. The pursuit of operational cost savings is one of the primary
goals of relationship building in industrial settings or service processes (Cannon and
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Homburg, 2001; Ulaga and Eggert, 2006; Woodruff, 1997). Lusch and Vargo (2004, p.11)
supported the views of Gummesson and Gronroos by stating that the “enterprise can only
offer value propositions; the consumer must determine value and participate in creating it
through the process of co-production.” “Interactivity, integration, customization and co-
production are the hallmarks of a service-centred view and its inherent focus on the customer
and the relationship”(Lusch and Vargo, 2004, p.11). Value potential is best translatable to
specific needs through co-production (Lusch and Vargo, 2004). A service-centred dominant
logic implies that value is defined by and co-created with the consumer rather than embedded
in output (Lusch and Vargo, p.6) and this being consumer oriented, dialogue and collaborate
with them, learn from customers and adapt to their individual and dynamic needs. Normann
and Ramirez (1993, p.69) state that “the key to creating value is to co-produce offerings that
mobilize customers.” In addition, “the customer is a co-producer of service. The customer is
primarily an operant resource, only functioning occasionally as an operand resource” (Lusch
and Vargo, 2004, p.7). In this regard, Self Service Technology (SST) can significantly
contribute to customer satisfaction through financial savings, speedy service delivery, ease of
usage of service, increases self-control as customers avoid service personnel, flexibility and
convenience (accessibility). Therefore, this brings us to the second research question of this
thesis which is as follows:-
Does technology have a positive impact on customer satisfaction in public
transportation?
To be able to determine whether SERVQUAL is effective in measuring service quality in
public transportation as well as confirm whether technology increases customer satisfaction in
public transportation, we developed a questionnaire within the framework of the SERVQUAL
dimensions of reliability, responsiveness, assurance, empathy and tangible. With a scale of 1
to 7, with 1 indicating very bad and 7 indicating excellent, a total of 607 respondents
participated in this survey by grading the questions in our questionnaire. These respondents
were users and customers of the public bus companies; Karlstad city bus which we labelled
business level 1 (B1) and intercity buses like Swebus and Värmland Trafik which we labelled
business level 2 (B2). Based on the scale, we were able to determine the level of perceived
service performance of the bus companies and then used these measurements to determine the
Gaps in each area of the service. The difference between the service performance (perceived
service quality) and the highest possible rating a customer could rate a service (Customers‟
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expectation) was the amount of quality improvements the customer still expects from the
company on that particular area of service. Business level 1 and 2 provided the results of
service quality as perceived by the customers at the firm or business level. We then
determined a mean result which was based on the average of the evaluation of both companies
(business level 1 and 2) for each question and established this as the result at industry level.
We ranked the questions according to the size of their GAP 5 (difference between actual
service performance and customer‟s expectation) at industry level in order to establish a mean
and median for all the questions based on their GAP 5 sizes. This enabled us to identify and
distinguish areas of the service process whose GAP 5 is larger or smaller than the mean
indicating lower or higher service quality respectively. Based on the results of our research in
which we asked respondents to mention some of the areas of the service process where they
had encountered unfavourable service experiences, we were able to identify the areas of the
service process where most customer complaints came from. We compared these results with
the customer complaints received by the management of the public bus company and noticed
that there were similarities because majority emerged from areas of the service process
whereby the customer came in contact with the employees or the service failure could be
directly associated to the employee. When we compared these areas of complaint with the
results of questions in our questionnaire developed within the framework of the SERVQUAL
dimensions, we noticed that those questions with larger GAP 5 indicating lower service
quality were actually a reflection of the areas of the service process from which customer
complaints were high. It must be noted that if service quality is low it might trigger customer
complaint behaviour. In this regard, we were able to conclude that SERVQUAL was effective
in measuring the service quality in public transportation. In addition, the ranking of the
questions in the questionnaire at industry level revealed that those areas of the service process
whereby the employees and the customer interact or whose service failure can be directly
associated with an employee were graded low and ranked below the mean and median
compared to other questions in the various dimensions. Most areas of the service process
where technology is used or customers had the opportunity to make use of self service
technology ranked above the mean and median. This was a clear indication that technology is
a service quality driver and positively impacted customer satisfaction in public transportation
services. Astonishingly, we also noticed that, if technology failed to function as expected,
customer satisfaction greatly declined, hence perceived service quality.
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In the proceeding chapters, we use the literature of famous scholars and researchers in this
field in order to provide a vivid description of service quality and customer complaint. This is
aimed at revealing the importance of this topic as well as show the relationship between
service quality and customer complaint which we used in this thesis in order to reveal the
effectiveness of SERVQUAL in measuring service quality as well as showing the impact of
technology on customer satisfaction. The report also „shed more light‟ on the role and types of
technology (SST) in services as well as the factors that positively drive customer satisfaction
when using technology in services. We would describe in greater depth the research methods.
We would then provide a discussion section comparing our research results with other
research findings in the field as well stating the implications of our findings to the current
business environment. We shall conclude the chapter by providing a final response to the
research questions highlighted at the beginning of this thesis.
2 Theoretical backgrounds
In this chapter we review existing literature and relate it to this thesis topic in order to develop
the arguments about the significance of our research and where it leads.
2.1 What is Service Quality?
In order to understand the SERVQUAL approach and its application, it is imperative to give a
clear definition of service quality. Service quality is the extent to which a service meets
customers‟ needs or expectations (Lewis and Mitchel, 1990; Dotchin and Oakland, 1994a;
Asubonteng et al. 1996; Wiesniewski and Donnelly, 1996). Service quality is when a “service
should correspond to the customers‟ expectations and satisfy their needs and requirements”
(Edvardsson, 1997, p.33). The GAP model defines service quality as the gap which can be
viewed as the difference between customer perceptions and expectations. This implies that
“service quality can thus be defined as the difference between customers‟ expectations of
service and perceived service” (Wiesniewski, 2001, p.381). If customers‟ expectations are
greater than performance, then perceived service quality is less than satisfactory and hence
customer dissatisfaction occurs (Parasuraman et al. 1985; Lewis and Mitchell, 1990).
However, it must be noted that customer dissatisfaction does not usually come from lack of
service quality alone (Day 1984; Oliver 1987; Singh and Howell 1985).
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Quality is increasingly becoming a strategic issue in the Western world (Bergman and
Klefsjo, 2003). One of the main reasons for the successes of Japanese industry in the 1970s
and 1980s was that the Japanese realised early that quality concept should emanate from the
requirements and expectations of the customers (Bergman and Klefsjo, 2003). This perception
played a vital role in bringing about success (Bergman and Klefsjo, 2003). Technology is
transforming the way services are offered today because it has made it possible for customers
to become co-producers and co-creators of services, thus transforming the role and perception
of the customer in service creation, hence increasing service quality.
However, to achieve service quality, we must be able to measure it so that improvements
required can be determined and implemented. In this regard, the SERVQUAL instrument is
one of the tools used today in order to measure service quality. But is it effective in measuring
service quality? How effective is this instrument in measuring the quality of something that is
abstract like services? This is the reason why it is imperative to understand why services are
complex and perceived service quality can easily diminish during the service process.
2.1.1 Services and service quality in Public transportation
To understand the importance of service quality, we believe that it is vital to understand what
a service means. According to Lovelock & Wirtz (2004, p.9), a service is “an act or
performance offered by one party to another.” They added that “although the process may be
tied to a physical product, the performance is transitory, often intangible in nature, and does
not normally result in ownership of any of the factors of production.” Lusch & Vargo (2004,
p.2) define services as the “application of specialised competences (knowledge and skills)
through deeds, processes and performances for the benefit of another entity or the entity
itself.” “Service is the link between the producer and customers, both internal and
external”(Anton, p.129). The service process cannot be conducted without the customer
involvement. Therefore the “customer is the co-producer of the service”(Bruhn and Georgi,
2006, p.14).
Based on the definitions above, we view services as an activity, intangible in nature, which
contributes value to consumers. It is highly customer focus because it is only activated when a
customer demands and uses it. This therefore makes services to be „delicate and sensitive‟
both from the customer and service provider perspective because services are consumed at the
very instance of production, thus making mistakes encountered during the service process to
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be felt immediately by the customer and diminish the value of the service from the
perspective of the customer. Contrary, if mistakes (failures) are not made when delivering the
service, value is created and this greatly contributes to the customer‟s satisfaction and it is felt
on the spot by the customer. This is different with tangibles because customers buy and
consume later, failures in the product are not felt on the spot and can therefore be corrected
before the customer consumes the product. Service failures are a “critical element within
value-oriented service marketing because of various negative value effects” (Bruhn and
Georgi, 2006, p.93). This is the reason why in any service system, the front-line employees
should be well trained to perform their duties as well as know how to listen to and solve
customers‟ complaints as soon as they occur. We therefore view services as a framework for
value creation because it provides a „platform‟ on which value can be created. In this regard
services must be designed and developed very carefully. Employees should be well trained to
observe and detect as well as record and assist to remedy problems on the spot.
Silcock (1981) conceptualized service quality for public transport industry as the measures of
accessibility, reliability, comfort, convenience and safety. Pullen (1993, p. 261) defined
quality of service for local public transport industry as a concept that involves “those
attributes of the service which affect its fitness for purpose” and “the attributes, and indeed
fitness for purpose, require detailed definition in relation to local objectives and
circumstances.” According to (Cavana & Corbett, 2005, p.1) traditionally, the performance
indicators for public transport industry are divided into two categories: efficiency and
effectiveness. Under the efficiency category, the measures are concerned with the processes
that produce the services while the measures in the effectiveness category are used to
determine how well the services provided are with respect to the objectives that are set for
them (Pullen, 1993). As it is proven in this report in the example of Karlstad city bus
Company (B1) one will notice that consumers‟ rate the quality of the bus company in
respected to some of the objectives that are set for a bus company. Quality of service is one of
the performance indicators under the effectiveness category because when the right things are
done the right way, service quality is high. Passenger‟s waiting time, lost mileage and
characteristics of each journey mode (time of arrival, time spend, time of arrival at the
destination) are some of the commonly used measures in the transport industry to measure
quality of service (Pullen, 1993). More recently, output quality measures that have been used
for the rail system in Britain include train performance (delays per passenger train), train
overcrowding, asset condition and infrastructure (broken rails per train mile), and safety or
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accident risk like signals passed at danger per train mile (Pollitt and Smith, 2002). All these
measures greatly impact the service quality in the transportation industry including bus
service companies and these measures are clearly reflected in our questionnaire.
2.1.2 Customer expectation and Perceived service value
Due to the fact that service quality depends on the extent to which customers‟ expectations are
met, we think that it is imperative to distinguish customers‟ expectation from customer‟s
perceived service value so that a clear gap can be identified which represents the gap the
service provider must close in order to fully attain the customer‟s expectation, hence attain
high service quality.
2.1.2.1 What is customer expectation?
According to Bruhn & Georgi (2006, p. 442) “Expectations represent an individual‟s
psychological state that relates to future behavioural consequences for that person. Customer
expectations are this state regarding future service usages.” They postulated that Customers
have normative expectations, which indicate the customer‟s requirement s regarding a service
provider and predictive expectations which indicate the service level which is probable from
the customer‟s perspective”( Bruhn & Georgi, p.442). A customer‟s expectations are
influenced by their experience, personality traits as well as the environment within which the
service is being delivered. Therefore, with the aid of the SERVQUAL instrument, it is
possible to identify as well as measure the elements of his or her expectations in such a way
that a customer‟s psychological state and views about a service can best be captured, analysed
and understood.
2.1.2.1 What is perceived service value?
Customers evaluate the performance of a service used based on several factors which can be
grouped under cost and benefits. Bruhn & Georgi (2006, p.444) postulate that “Customers
attribute a value to a service used according to the benefits (for example, perceived service
quality) and the cost (for example, price paid) they perceive in the context of using the
service. Cost could also include time and effort used or invested in order to obtain or consume
the service while benefits could include rewards obtained from consuming the service.
However, other factors experienced by the customer during the service process and service
encounter could significantly influence his/her perception of the service value (perceived
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service quality). Some researchers stress that service encounter is the focal source of service
quality (Czepiel et al. 1985) the so-called moments of truth (Carlzon, 1987). This is due to the
fact that customers evaluate a service according to the service‟s characteristics with their
expectations regarding these characteristics and some of these characteristics include for
example friendliness of employees, empathy, convenience, which within the SERVQUAL
instrument are grouped under the five dimensions in order to make them operational.
2.2 SERVQUAL and Service Quality
In order to become “customer-focused, companies must set in place a measurement system
that includes the voice of the customer” (Anton, 1996, p.13). SERVQUAL is a measuring tool
developed by Parasuraman et al. (1985), aimed at measuring service quality. It is customer
oriented. Earlier scholars like Lehtinen & Lehtinen (1982) argued that service quality
comprised of three main components namely: physical quality, corporate quality and
interactive quality.
1. Physical quality: it referred to all the physical issues of the service
2. Corporate quality: it referred to the image of the organisation, that is, the image or
reputation-related quality dimension which relates to the overall perception customers have
about the service organisation.
3. Interactive quality: it referred to the contacts or interactions amongst the people including
contacts between the employees and the customers.
Three years later, Parasuraman et al (1985) argued and were convinced that service delivery
contained two main components namely: the outcome of the service and the process during
the service delivery. Based on this ideology and perspective, they developed what is today
known as the Five-GAP model of service quality and also called SERVQUAL. SERVQUAL
approach according to Parasuraman et al. (1985) is based on the assumption that service
quality is the difference between customer‟s expectations and the actual service performance
of the service being consumed. Parasuraman et al. (1985, 1988, and 1991) operationalized
service quality using this instrument. This implies that service quality is basically determined
by the customer because service quality is assumed to be the difference between customers‟
expectations and their perceptions of the service actually delivered. In this regard,
SERVQUAL conforms to the definition of services as postulated by many recent scholars like
Edward Deming (1986, p.5) who emphasised that “quality should be aimed at the needs of the
customer, present and future”. This implies that the customers of today should be considered
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as those of tomorrow. Therefore, their needs and expectations must be known by the service
producer in order for a service to redesigned and improved to meet their needs and
expectations. To achieve this target, companies or service providers must be able to measure
the current service quality of their services as perceived by the customers and then compare it
with their expectations.
Due to the intangible nature of service, it is very difficult to measure its quality. Due to the
fact that a service process cannot be conducted without the customer involvement thus
making the customer to be a co-producer of the service”(Bruhn and Georgi, 2006), service
quality has become more complex than product quality. Service quality is recognized by a
number of authors as both abstract and elusive (Parasuraman et al., 1985, 1988; Carman,
1990; Cronin and Taylor, 1992; Lewis, 1994). This is because of the intangibility,
heterogeneity and inseparability characteristics of service industry outputs (Parasuraman et
al., 1985, 1988; Lewis, 1994). This also partly due to the fact that “the characteristics of
service quality are not objective, but subjective for each customer. As a consequence, major
efforts have been taken to conceptualise service quality”(Bruhn & Georgi, 2006, p.11). The
best known model in this context is the so-called GAP model of service quality that explains
the determination of service quality as the gap between service expectations and perceptions
by four internal gaps (Parasuraman et al. 1985). The widely known measurement instrument
based on the GAP model is the SERVQUAL approach that measures service quality using 22
items that are associated with the five service quality dimensions: tangibles, reliability,
responsiveness, assurance and empathy (Parasuraman et al. 1988). The Five-GAP model was
originally four gaps and according to the model, service quality is not attained if there is a gap
between:-
GAP-1: Customer expectations and management‟s perceptions of these expectations.
GAP-2: Management‟s perceptions of customers‟ expectations and the defined service
specifications.
GAP-3: The defined service specifications and the delivered service.
GAP-4: The communicated service and the delivered service.
“The above four gaps concern the causes of poor service quality in the way the organization is
managed” (Chau & Kao, 2009, p.110).
15
GAP-5: The difference between customers‟ expectations and service performance or
perception. GAP-5 measures the user quality. The five dimensions (reliability,
responsiveness, assurance, empathy and tangibles) are “recognizable in the
SERVQUAL literature as gap-5” (Chau & Kao, 2009, p.110).Therefore it is very
customer oriented as it captures the customer‟s perceived value of the service being
offered. “Gap-5 depends on the size and direction of the four disconfirmations
associated with the delivery of service quality on the marketer‟s side”(Chau & Kao,
2009, p.110).
Therefore, it is evident that service quality is an integral part of the SERVQUAL instrument.
Many researchers and studies have acknowledged the fact that high quality service is essential
for firms that want to be successful in their business (Parasuraman et al., 1988; Rust and
Oliver, 1994). This is because high service quality leads to customer loyalty (Lewis, 1994),
higher profitability (Gundersen et al., 1996) and lower cost (Grant, 1998). This will lead to
higher competitive advantage for the service company and customer satisfaction.
The five dimensions (reliability, responsiveness, assurance, empathy and tangibles) of the
SERVQUAL instrument can be found in GAP-5 and when measured, the difference between
customer expectation (the importance) and perceived service (performance) can be
determined. Below is a diagram showing the five dimensions of the SERVQUAL instrument
and the additive effects service process quality and outcome quality. According to Bardy and
Cronin Jr. (2001), Parasuraman et al. (1988) outcome attributes such as reliability are more
important determinants of service quality than process attributes such as responsiveness,
empathy and assurance on post consumption behaviour. Bardy and Cronin Jr. (2001),
Parasuraman et al. (1988) together with other researchers have suggested that an additive
effect of service process quality and outcome quality exist on post consumption behaviour.
16
Figure 1: SERVQUAL dimensions and service quality attributes
2.2.1 The Strength of SERVQUAL in measuring service quality
SERVQUAL is service and customer oriented, thus making it very suitable to measure service
quality in the service industry. SERVQUAL is commonly used in the public transport
industry-based (Cavana et al., 2005). “Those commonly used in the public transport industry
are more industry-based. SERVQUAL is much more humanistic, or customer-related, while
most of the measures used in public transport industry are much more mechanistic, or have a
technical focus, or use more objective measures” (Cavana et al., 2005, p.11). The three-
column format SERVQUAL instrument was the latest development by Parasuraman et al.
(1994a), and “it is claimed that this can be used for managers for diagnostic purposes and it
offers the opportunity for using the perception items separately for predictive
purposes”(Cavana et al, 2005, p.9). In the airline industry, Young et al. (1994) added the
industry-based measures to SERVQUAL measures, and according to his research, the
predictive power to satisfaction was significantly increased. Service quality is usually
regarded as the customer‟s impression of the relative inferiority/superiority of a service
provider and its services (Bitner and Hubert, 1994; Tsoukatos and Rand, 2006) to its
competing alternative, and is often considered similar to the customer‟s overall attitude
towards the company (Parasuraman et al., 1988). It has therefore been popular to
conceptualize and establish measures for service quality such as SERVQUAL and explain its
Service
Quality
Reliability
Responsiveness
Assurance
Empathy
Tangibles
Process
Attributes
Service
Environment
Outcome
Atrributes
17
relation to the overall performance of companies and organizations (Chau and Ngai, n.d.).
Management requires measurements in order to be customer focus as well as increase service
quality. “Customer-focus equation is emphasis on what today‟s customer considers important,
namely value” (Anton, 1996, p.17). If a service company has to be customer-driven in
managing their customer relationships as well as their customers‟ perception about the
performance of their service organisation, they must learn to use new measurement tools like
SERVQUAL because the five dimensions (reliability, responsiveness, assurance, empathy
and tangibles) provides numerical values which can serve as indicators for management to use
in order to assess their performance as perceived by the customer. In addition, in order to
include the voice of the customer in the management style of a service company, management
must include measurements that are indicative of customer satisfaction, hence service quality.
SERVQUAL instrument can do just this. SERVQUAL items make it possible to measure
internal metrics of a service that are behaviourally anchored. “A behaviourally anchored
metric is one where we can alter the numerical value of the metric by a change in employee
behaviour” (Anton, 1996, p.45). This implies that a change in employee behaviour will
increase or decrease the numeric value of the metric, thus leading to customer satisfaction and
narrowing the GAP-5. In order for a firm to make improvements towards attaining high
service quality, the customer satisfaction must drive an internal corporate behaviour that can
be measured, changed and improved (Anton, 1996) so that management can make
adjustments. For example employees‟ willingness to assist passengers find solutions to their
problems relating to their trip. If customers rate them low, management can quickly identify
the source of the problem and then motivate employees to change their behaviour by
demonstrating greater willingness to assist customers (passengers). Items in SERVQUAL
instrument rated low should be the focus of improvement. After receiving customer
complaints, companies must be able to link those complaints to the root causes in the firm.
They must figure out a way to measure these causes. According to Anton (1996, p.44) “the
reason so many companies fail to ultimately use data gathered from customer comment cards,
surveys and the like is that there is no direct connection between the outside measures and
what to change internally. You cannot improve externally what you do not measure
internally.” Customer relationship implies: Respond to individual customers, identify sources
of dissatisfaction, conduct root cause analysis and from root cause analysis give feedback to
getting the right job done right the first time (Anton, 1996).
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2.2.2 The limitations of SERVQUAL in measuring service quality
Some researchers like Cronin and Taylor (1992, 1994) argue that measuring service quality
using SERVQUAL, which is based on performance-minus-expectations (or gaps), is
inappropriate and suggest that SERVPERF, which is a performance-only measurement, is a
better method. The study of Cronin & Taylor (1992, 1994) was later replicated (Brady et al.,
2002) and both studies‟ findings suggest that in a number of industries such as fast food, pest
control, dry cleaning, but also in banking, SERVPERF outperforms SERVQUAL. Other
researchers have questioned the dimensionality of SERVQUAL (Bouman and Van der Wiele,
1992; Carman, 1990; Mels et al., 1997), and others have argued about its measurement of
perception and expectation (Babakus and Boller, 1992; Brown et al., 1993; Carman, 1990;
Cronin and Taylor, 1992; Sureshchandar, Rajendran & Kamalanabhan, 2001).
To conclude this section on SERVQUAL, below is a brief description of the five dimensions
(reliability, responsiveness, assurance, empathy and tangibles) of the SERVQUAL instrument
by Parasuramam et al. (1994, p.207). They are as follows:-
Reliability
Providing services as promised.
Dependability in handling the customers‟ service problems.
Performing services right the first time
Providing services at the promised time
Maintaining error-free records
Responsiveness
Keeping customers informed about when services will be performed.
Prompt service to customers
Willingness to help customers
Readiness to respond to customers‟ requests
Assurance
Employees who instil confidence in customers
Making customers feel safe in their transactions
Employees who are consistently courteous
Employees who have the knowledge to answer customer questions
19
Empathy
Giving customers individual attention
Employees who deal with customers in caring fashion
Having the customers‟ best interest at heart
Employees who understand the needs of their customers
Convenient business hours
Tangibles
Modern equipment
Visually appealing facilities
Employees who have a neat, professional appearance
Visually appealing materials associated with the service.
It must be noted that we developed the questions in our questionnaire within this framework
described by Parasuramam et al. (1994, p.207).
2.3 Technology and Customer Satisfaction
In this chapter of the report, we describe how technology can be used to increase customer
satisfaction in services. We make some particular references to public transportation. We
review the role of self service technology in services as well as evaluate customer readiness to
embrace new technology. We also identify those factors (monetary benefits, time/speed, ease
of usage, self control, flexibility/convenience and reliability) that would be vital in boosting
customer satisfaction when using technology in service processes.
2.3.1 Self-Service Technology (SST)
Self-service technologies are a classic example of market-space transactions in which no
interpersonal contact is required between customer and service provider. The market-space is
defined as “a virtual realm where products and services exist as digital information and can be
delivered through information based channels” (Rayport and Sviokla 1995, p. 14). Market-
space environment no longer has conventional foundations of customer-company interactions.
This raises a question of user profile development involving SSTs. Several studies have
investigated this issue (Bateson 1985; Darian 1987; Eastlick 1996; Greco and Fields 1991;
Langeard et al. 1981; Zeithaml and Gilly 1987). For example, a study of Langeard and
colleagues (1981) has made a market segmentation of participants on the basis of their
20
willingness to use SST as an alternative service delivery. Results show that participants tend
to be younger, single, better educated and have a lower income level. Bateson (1985)
examined the customers‟ choice between options of a self-service and an interpersonal service
delivery system, while having and not having the usual monetary or time-saving incentives.
Results show that a significant group of people choose to use a self-service option even
without monetary or time-saving benefits. However, it should be mentioned that no
distinction between technology-based self-service scenarios and more labor-intensive self-
service situations have been made in either studies. Therefore the technological aspect in the
recent and future studies might influence consumer‟s perceptions, and thus affect the results.
However, another aspect after customers accept SST is their decision to continue using it,
which may be affected by different factors. According to Curran and Meuter (2005),
perceived usefulness or customer value, as well as self-control affect customers‟ intentions to
continue use SST. The majority of scholars that focus on continuous SST use intentions of
customers postulate in importance of the following attributes: ease of use, usefulness, self-
control (Globerson and Maggard, 1991; Meuter et al., 2000).
2.3.1.1 Types of Self-Service Technology
There had been nearly no attempts to research a broad range of SSTs available to consumers
nowadays. Most of the studies had a focus on either a single type of technology used (e.g.,
Dabholkar 1992, 1996) or, in the case of the early studies, a low-technology self-service
(Bateson 1985; Langeard et al. 1981). In the current study we will cover a variety of modern
SSTs and show their impact of level of customer satisfaction in service. For this purpose SST
categories will be used from the study of Meuter, et al (2000) – “Categories and Examples of
SSTs in Use”, slightly modified in order to suit the current study. These categories of SST
options have been developed based on an extensive review of the academic literature, trade
press, observation, and direct interaction with companies. The Interface row represents the
types of technologies available to customers, the purpose column represents the purposes of
the technologies from the customer perspective - the end result the customer is looking for
while using the technology.
21
Interface
Purpose
Telephone/
mobilephone -
sms
Online/
Internet/
mobile internet
Interactive
kiosks
Magnetic/chip
cards
Customer Service Sms tickets Online
bookings,
Online
timetable
Card Reader,
Ticketm
machine,
Digital
timetable
Charge cards
Transactions Buy tickets Buy/change
tickets
Buy tickets
Buy tickets
Communication Via phone Via email Travel
information
Credit status
Figure 2: Categories and Examples of SSTs in Use”,
The types of technology interfaces (the columns in Figure 3) include tele (-mobile) phone-
based technologies, direct online, Internet and mobile internet-based interfaces, interactive
free-standing kiosks and magnetic/chip-cards. Sometimes these technologies are used in
combination. For example, a customer can see an interactive digital timetable for his bus, buy
a ticket in the interactive kiosk and validate the ticket in the bus ticket machine. There are a
variety of purposes for the companies to install SSTs in the service delivery process, broadly
captured by the rows in Figure 3.
First, a large number of services are now provided through technology, such as:
buying tickets with your mobile phone or internet, self managing a ticket validation
and making a „self route planning‟ with the help of digital timetable.
A second important purpose of using SSTs is direct transactions. The involvement of
technology in the bus services enables customers to book, buy, and exchange tickets
without any direct interaction with the employees. Recent studies capture a rapid
growth in Internet-based transactions (Hof 1999).
The third usage purpose of SSTs is the most widely used category called
communication, which refers to technologies that enable customers to get in contact
with employees of the service provider in the case of a complaint, feedback or in
search for information. In the original “Categories and Examples of SSTs in Use” of
Meuter, et al (2000) the last (third) category had been “Self-help”, however in order to
22
adjust the figure to our study this category had been replaced with “Communication”,
as it better represents the studied service.
2.3.2 Customer Readiness (CR) and Technology Readiness (TR)
Despite the global expansion of technology into the daily life of most people, there might still
be a fear and discomfort in dealing with new technology resulting in frustration (Lin and
Hsieh, 2006; Parasuraman, 2000). Studies have also shown that some people demonstrate a
certain degree of technophobia (Meuter et al., 2003) or are technology pessimists (Edison and
Geissler, 2003; Modahl, 1999). Technology cannot be accepted if consumers are not ready.
There had been an extensive research to identify the relationship between CR and SST
(Liljander et al., 2006; Lin and Hsieh, 2006; Meuter et al., 2005; Parasuraman, 2000;
Tsikriktsis, 2004), particularly in studying the effectiveness of SST associated with online
services, such as the e-reservation systems (Lin and Hsieh, 2006).
The concept of CR is a state of mind, a personal predisposition toward using new
technologies (Liljander et al., 2006). Meuter et al. (2005) referred to CR as a condition in
which a consumer is prepared and likely to try new technology services.
In order to highlight the technological impact in customer-company interactions, Parasuraman
(1996) proposed a “pyramid model” of services marketing, which is an extension of the
“triangle model” proposed earlier by Kotler (1994). This had been done in order to „capture‟
the added complexities of marketing services compared to marketing goods, reflecting some
of the ideas discussed by Grönroos (1996, 1998). The pyramid model includes technology as
a new dimension into the two-dimensional triangle model and highlights three new links –
interactions that need to be managed: company-technology, technology-employee, and
technology-customer (Parasuraman, 1996).
The technology-readiness concept refers to “people‟s propensity to embrace and use new
technologies for accomplishing goals in home life and at work” (Parasuraman, 2000), and is
based on four dimensions: optimism, innovativeness, discomfort and insecurity. Optimism
and innovativeness are the positive constructs of TR, encouraging customers to use
technology based services and to have a positive attitude toward technology. Discomfort and
insecurity, on the other hand, are negative constructs, making a barrier for customers to
engage in SSTs. Parasuraman and Colby (2001) found that TR profiles of customer segments
23
vary significantly in terms of internet-related behaviors. The study of Yen (2005) had shown a
different consumer readiness in using technology-based services.
An extensive qualitative study on peoples‟ reactions to technology, by Mick and Fournier
(1998), revealed eight technology paradoxes that consumers encounter: control/chaos,
freedom/enslavement, new/obsolete, competence/incompetence, efficiency/inefficiency,
fulfills/creates needs, assimilation/isolation, and engaging/disengaging. All of the paradoxes
above imply that technology may trigger both positive and negative feelings (e.g.,the
competence/incompetence paradox, facilitated by technology can create a feeling of
intelligence or efficacy, and further feelings of ignorance or ineptitude (Mick and Fournier,
1998).
People‟s attitude towards technology varies across individuals, including both positive and
negative feelings. Moreover, a strong positive correlation between consumers‟ attitude or a
feeling towards technology and their propensity to embrace and employ technology can be
expected (i.e.,their technology readiness). Dabholkar (1996) in his study of consumers‟
evaluations of and intentions to use technology-based self-service options, found that
consumers varied with regards to their beliefs/feelings about the different options and that
those beliefs/feelings were positively correlated with intentions to use. Technology triggers
both positive and negative feelings, resulting in anxiety. Types of anxiety include: computer
anxiety – with feelings of fear and apprehension, when considering possible or actual use of
computer technology (Igbaria and Parasuraman, 1989; Kay, 1993), and technology anxiety - a
general negative impression about technology tools (Meuter et al., 2003). Rockbridge
Associates had conducted a large number of focus group interviews on technology-related
topics with customers of companies in a variety of sectors (e.g., financial services, online
services, electronic commerce, telecommunications). General outcome from these interviews
was consistent and showed positive feelings as well as apprehensions of customers towards
technology. Examples of positive themes received from focus groups were: flexibility,
convenience, efficiency, and enjoyment. Security concerns, risk of obsolescence,
impersonalization, and lack of control were included in negative themes.
2.3.3 Customer Value (CV) and Technology
Customers recognize service value through desired purpose or goal achieved (Overby, 2005).
According to Woodruff (1997, p.142), “customer value is a customer‟s evaluation of product
24
attributes, attribute performances and consequences arising from use.” Holbrook (2006)
defined CV as an interactive relativistic preference experience that involves an interaction
between an object (e.g., a product/service) and a subject (e.g., a consumer). There are five
factors that determine CV: functional value, emotional value, epistemic value, social value,
and conditional value (Sheth et al., 1991) and are described as follows:-
1. Functional value refers to functional performance, economic utility, and the benefits
associated with use of the service. It is the economic benefits of the relation between
quality and price said to be the major driver of customer choice (Sheth et al., 1991;
Sweeney and Soutar, 2001).
2. Emotional value is based on customers‟ feelings while experiencing products or
services of an organization.
3. Epistemic value is the capacity of services or products to provide innovation or
curiosity and satisfy a desire for knowledge (Sheth et al., 1991).
4. Social value is narrowed to specific social groups (e.g., cultural-ethnic groups)
5. Conditional value describes specific personal cases and social situations (Sheth et al.,
1991; Sweeney and Soutar, 2001).
2.3.3.1 Factors that make technology increase customer satisfaction in services (Public
Transportation)
The following criteria of customer value creation and satisfaction antecedents were
identified:-
1. Monetary benefits: Monetary or financial savings (Bateson 1985, Globerson and
Maggard 1991, Meuter et al. 2000), customers believe to save money while using
SSTs, which is done is two ways: first, the indirect savings, meaning the customer
does not have to spend money to go to the main bus station to buy his ticket, or come
to the office for a cancelation of the previously booked ticket; second, the direct
savings, when customer is able to get a special price by booking online, or using a pre-
charged bus card. Many firms offer financial incentives for customers to use SSTs.
2. Time/Speed: Time-saving or speed of service delivery (Bateson 1985, Globerson and
Maggard 1991, Meuter et al. 2000, Dabholkar 1996), the aspect of time is one of the
most widely used arguments while stating the advantages of SSTs. Customers believe
that they can perform the service not only faster than an employee (without the need to
explain the particular problem), but more efficiently than in case of interpersonal
25
communication as well; as there is less room for misunderstanding or
misinterpretation.
3. Ease of Usage: Easy to use or enjoyment (Globerson and Maggard 1991, Meuter et al.
2000, Rockbridge, Dabholkar 1996, Davis 1989), in some service encounters it is
easier for a customer to use SST. A simple and straightforward technology, with clear
user instructions, increase customer satisfaction. Thus making customers to prefer
technology to conventional interactions. Moreover, some customers state that it is fun
to use SST, and it increases their self-image in front of others as being knowledgeable
(Globerson et al, 1991).
4. Self-control: Self-control or avoid service personnel (Globerson and Maggard 1991,
Meuter et al. 2000, Dabholkar 1996), enables customers to gain control over the
quality and effectiveness of provided service by accomplishing most of the service by
themselves. Many customers believe that they can do the service better than the
employees. Moreover, some of the customers appreciate the fact that they do not have
to interact with the company‟s personnel, viewing it as a possible cause of annoyance
and dissatisfaction.
5. Convenience, accessibility and Flexibility: Convenience or anytime, anywhere
(Globerson and Maggard 1991, Meuter et al. 2000, Rockbridge), includes incidents
when SST enables customers to perform the service anytime of the day or night, as
well as to provide self-service from off-site locations. Customers demonstrate
appreciation of SST as they are not forced to travel to the firm in order for the service
to be delivered, or wait for the limited working hours offered by the firm. Unprompted
action or solution to the customer‟s requests had been proven to be one of the main
sources of dissatisfaction with interpersonal service encounters (Bitner, Booms, and
Tetreault 1990).
6. Reliablility: Reliability, including intensified needs (Dabholkar 1996, Meuter et al.
2000), SSTs are often stated by customers as being reliable means of service delivery.
“Intensified needs are defined as situations in which external environmental factors
add a sense of urgency to the transaction” (Meuter et al. 2000). SSTs are generally
easier available to customers disregarding the time and place of usage, providing an
26
immediate solution to the problem. According to Meuter et al. (2000), satisfaction was
caused by the ability of SSTs to rescue customers out of a difficult situation or resolve
the sensitive problem they were experiencing.
2.3.3.2 When something goes wrong – Attribution of blame while using SSTs
“The attribution theory of consumer satisfaction assumes that the consumer feels greater
dissatisfaction the more the inconsistency between the outcome and expectations is attributed
to external causes (i.e., outside the consumer„s control), stable causes and causes under
control of the producer” (Antonides, van Raaij, 1951, p.491). The attribution theory talks
about the causes to which individuals attribute certain events (Folkes, 1984). Plainly, the more
the customers blame the service provider (external-locus), believe that the dissatisfying
incident is likely to happen again (permanent-stability), and perceive that the service failure
could have been avoided (preventable-controllability), the higher is the probability to engage
in a complaint bahaviour (Folkes 1984; Krishnan and Valle 1979).
Research of interpersonal customer encounters suggests that people are likely to blame others
for a product or service failure. For example O„Malley (1996) found that car owners and car
mechanics blamed each other for car damage. In addition, Belk et al. (1981) found that only
3% of respondents (11 out of 359) blamed themselves for their problems. In the cases of
SSTs, the outcome is expected to be different, as customers deliver the service for themselves,
thus adopting a partial responsibility for the outcome (Mills, Chase, and Margulies 1983;
Zeithaml 1981). Research shows that 63% of incidents (both positive and negative) were
attributed to the technology, whereas 34% being negative incidents. Scholars postulate that
this outcome is not surprising, as customers acknowledge the critical role technology plays in
service provision. Overall, 25% of the respondents attributed the outcome equally to
technology and themselves. Thus, attribution findings indicate that in the case of negative
service experience, customers tend to blame the technology or the service provider more often
than themselves; however, being lesser than is conventional services.
27
2.4 Quality drivers in services and how technology could enhance the
effectiveness and efficiency of quality drivers Quality drivers could help bridge Gap-5 and increase customer satisfaction. Below is a broad
description of the service quality drivers under broad headings that describes their impacts on
the entire service. Some generic service quality drivers (lecture notes of Prof. Bo Edvardson,
2008) to consider when developing the services are as follows:-
1) Trust and reliability
To make customers trust and rely on the service, services must be provided as promised and
customers must be confident that their problems will be solved and this means that customer
care must be a priority. In addition, services should be delivered on time and in the maximum
quality and within the required time. Moreover, the service should have the capacity to satisfy
the essence of a customer‟s need, want or expectation. Technology implemented in the service
should be reliable and function as promised as well as expected. If this is met, customers will
develop a trust for the service and their satisfaction will increase. For example, Karlstad city
buses (B1) and intercity buses (B2) follow an electronic schedule planning system, based on
GPS function. The implementation of this technology allowed companies to execute a strict
control over each individual bus location and its arrival according to the planned timetable,
thus making the service more reliable to their customers.
2) Employee competence, commitment and willingness to serve customers
Employees should be skilled and knowledgeable about the service being offered so that they
can ensure quality services and motivate customers by being able to respond to their questions
as well as offer good advice on how use the service. Therefore, service providers must ensure
that they boost their service delivery drivers, “which is everything that actually happens when
the service strategy is carried out by the employees” (Anton, 1996, p.49).For example
customer‟s perception of employees attributes such as reliability, responsiveness, product
knowledge, accuracy, empathy (Anton, 1996). Technology should be implemented in the
service process to boost employees‟ knowledge to help serve customers as well as make the
service reliable. In addition, technology should enable employees have more time to serve
customers by listening and answering to the individual problems of the customer. For
example in Karlstad city buses (B1) and intercity buses (B2), the use of cash onboard had
prevented bus drivers (frontline employee) to interact with passengers as a result of fear of
being robbed or other violent physical action. Technology based services like the Card readers
are meant to reduce or even eliminate such problems because they enable customers to make
28
payments themselves while entering the bus, thus reducing the time of the service process if
the driver had to collect money and then issue them a ticket. This has also made the
transaction in the service process to be cashless, giving the employees a chance to entirely
focus on listening to customers‟ problems and interacting with them without being scared of
being robbed, thus increasing customer satisfaction. Many people get irritated by waiting and
being delayed because of other passengers who buy tickets in the bus. Moreover, the bus
drivers, being the only front line employee during the service delivery have to cope with the
problem of having not enough time to resolve or answer individual customers‟ question and
problems as well as selling tickets. Furthermore, after our interviews with the company‟s
management and some of the bus drivers, we came to realize that bus drivers have a highly
negative experience operating with cash onboard. According to the internal data of the
company, cases of valiant action to and robbery of the drivers of the company occur as often
as once a week! Thus, the drivers are simply scared to excessively interact with passengers.
3) Easy to do business
The service should be easy for the customer to understand and use. If the technology
implemented in the service process is easy to use, customers will like it and not resist usage.
For example, in Karlstad city buses (B1) and intercity buses (B2), the technology of providing
information over the bus location, based on the GPS system, is provided in two variants:
online, including mobile internet and at the digital timetable boards. This technology is very
easy in use, indicating the time interval of the next arriving bus of the given route number
(e.g. bus 1 to campus in 3min.). This technology allows passengers to easily plan their trip,
being nearly anywhere, while wasting no time looking for the printed copy of the timetable
somewhere at the bus stop. The simplicity of this SST results in enjoyment of its usage, hence
a greater number of customer users.
4) Time
Services should be delivered on time and customers should not wait for too long before being
served because they will perceive the service as inefficient and low in quality. Therefore, the
service strategy drivers “which includes all those plans and policies you make in anticipation
of the customer‟s arriving to purchase your product or service” (Anton, p.48) should be quick
as possible. For example in most of the SSTs introduced by the companies (B1 and B2) are
meant to reduce time for the customer during the service process. The introduction of SST
eliminates the use of cash onboard, making the frontline employee to be more customer-
29
focused, hence providing a higher quality service. Moreover, it reduces boarding time; hence
make buses arrive on-time at their intended destinations. In this regard, the company provides
financial incentives for using SST, such as lower ticket prices.
5) Management of dissatisfaction and complaints
It should be easy for customers to complain and whenever they do so, they should be given a
response. Feedback from customers must be taken serious and the process of giving feedback
should be easy and quick. Technology should be used in registering and analysing customer
complaint so that it can be sent to the right area of the company for it to be solved. For
example, companies should make available email addresses where customers could send a
complaint email.
6) The service environment driver
It is composed of all physical surroundings that facilitate the delivery of your product or
service (Anton, 1996, p.49). The elements of these drivers are:-
The ambient conditions-lighting, background music, temperature
The spatial layout-entrances, lobbies, restrooms, counters, seating arrangements
The signs and symbols-posters, flags, pennants
For example, in Karlstad city bus (B1) and inter city buses (B2), the ease to use or enjoyment
(Globerson and Maggard 1991, Meuter et al. 2000, Rockbridge, Dabholkar 1996, Davis 1989)
from usage of SSTs available at the bus stops, such as digital timetable board, ticket
machines, etc help make the bus stops comfortable and the process accessing tickets and
waiting for a bus less strainous. The above mentioned technologies are tested on their ability
to satisfy customer needs, proving an easy to use self-service. Apart from carrying out the
particular function, each of the provided SSTs adds overall value to the core service, creating
a positive attitude of the customer to itself. Customers need not have a watch in order to
know the exact time the bus will arrive.
SERVQUAL can be used to measure the extent to which these service quality drivers are
present in a service, their impact and how customers perceive them. In the subsequent
chapters, we shall reveal the extent to which these service quality drivers are contributing
towards a high service quality as well as increasing customer satisfaction in Karlstad city
buses (B1) and intercity buses (B2).
30
3 Methodology
In this chapter, we will describe the company we used to conduct our research. We shall
provide reasons for the choice of this company as well as explain why the companies are
suitable for this research. We shall proceed by describing the questionnaire, specifically the
design as well as the explanations of each of the questions and how the questions will help
provide answers to the research questions of this research. Thereafter, we shall describe how
the data for this research was collected, the sample size and sample description (information
about the sample like mean, age, gender and income), the type of interviews conducted (when
and where), and the response rate. We would round-up the chapter by describing the approach
used to analyse the data from our survey and this will involve an iterative process of
generating inferences that are related to emerging themes in the topic of this research.
3.1 The Companies (City buses: Karlstad City Bus and Intercity buses:
Swebus, Värmland Trafik).
For our field research, we chose the main public bus companies in Karlstad (Karlstad city bus,
intercity buses like Swebus, Värmland Trafik) due to the following reasons:-
1. Perfect examples of public transportation companies: These companies are a part
of the public transportation industry because they operate within the city and between
cities, thus providing a true reflection of the public transportation industry. Public
transportation companies that offer services within the city and between cities have
similarities and dissimilarities. The similarity may be viewed from the perspective that
their core service is transportation but their service characteristics as well as service
processes may differ because service requirements within the city and between the
cities may differ significantly. These differences may have an impact on customers‟
perception of service quality as well as the impact of technology on their satisfaction.
Moreover, their expectations may also be differ based on the service characteristics.
The various companies under investigation capture the relevant issues in public
transportation; hence can be used as a base to make generalizations in public
transportation especially in relation to bus companies.
2. Use technology in their service processes: Their service processes make use of
technology. For example, customers are able to use card readers to make payments
while entering the bus, customers can make payments for their trip online and
31
electronic timetables makes it easier for trips to be planned, just to name a few. In this
regard self service technology is highly made use of in these companies and thus
provides a perfect platform for us to measure its impact on service quality and
customer satisfaction.
3. Access to information: We had access to information because the management of the
company was willing to share information with us. Interviews with managers provided
an in-depth understanding of the companies and the corporate culture existing in them.
Therefore, this was an opportunity for us to obtain information on customer complaint
and their sources received by the company. In addition, information from the company
enabled us to „read the minds‟ of management, thus providing a perfect platform for us
to develop a theory on managerial implication in this report. The managers also gave
us internal documents which were very helpful. It must be noted that the companies
had the same management body.
4. Familiarity with the services of the company as well as access to customers: It was
quite interesting to carry out this research because we live and study in the city of
Karlstad and also use the services of these companies. Therefore, we were carrying out
a research on a company we knew well. In addition, we had access to customers or
people who had or are active users of the services of these companies. The cultural
diversity of respondents served as a perfect platform to make generalisations.
Moreover, many respondents (customers, users) had experience in public
transportation in other countries. Their feedback and comparisons based on their
experience was of great advantage to this research.
Therefore, based on the points mentioned above, we believe that these companies will serve
as an effective platform on which we can determine the effectiveness of SERVQUAL in
measuring service quality as well as the impact of technology on customer satisfaction in
public transportation. The differences in the service characteristics of city and intercity buses
that can have an impact on perceived service quality as well as the extent to which technology
can increase customer satisfaction can be summarised in the table below as follows (For
easier analysis, city buses are referred to as business level 1 (B1) and intercity buses are
referred to as business level 2 (B2). This will facilitate the differentiation between the
business levels and industry level):-
32
Differences between city and intercity buses service characteristics
Business Level 1
City Buses (Karlstad city buses)
Business Level 2
Intercity buses (SWEBUS)
1 Travel shorter distances Travel long distances
2 Monopolistic market structure
(Lower or no degree competition)
Loose monopolistic market structure
(Higher degree of competition)
3 Relatively lower prices for tickets Relatively higher prices for tickets
4 Frequency of usage is higher (Daily basis) Frequency of usage is lower (occasionally)
5 Direct buying of tickets from driver or
usage of charge cards
Frequent online bookings and buying of
tickets as well as usage of charge cards
Table 1: Differences in the service characteristics between city buses and intercity buses
Researchers (Landon and Laird, 1977) have also acknowledged and have tried to explain how
variations in product and service characteristics impacts consumer complaining behaviour
hence the pattern of customer complaint behaviour. Therefore, it is more likely that
customer‟s will complaint after a service failure in a particular business level than another due
to the service characteristics. Below is an explanation of how the differences in service
characteristics in business level 1 and 2 is likely to trigger a customer complaint behaviour
which will inevitably affect the results of this research because more complaints will reflect
low service quality and vice versa. Due to the fact that our research is aimed at evaluating the
effectiveness of SERVQUAL in measuring service quality and the impact of technology on
customer satisfaction by comparing customer complaints obtained in our survey and also
those from the management of SWEBUS, it is imperative to understand how service
characteristics will impact customer complaint behaviour, hence the amount of complaint to
be made about a particular area of a service process in a business level. This will also reflect
the impact technology has on customer satisfaction which is also a vital component of the
service process. Therefore, more complaints will imply low service quality. The higher the
amount of complaints, the more likely is the level of perceived service quality low and vice
versa. However, it must be noted not all customers who encounter a negative service
experience complaint.
1) Travel Distances: City buses (B1) travel shorter distances compared to intercity buses
(B2) which travel between cities and in some cases to other cities across the national
boundary. For example Oslo in Norway which is travelled by SWEBUS. With increases in
33
distance, there is a higher probability of being dissatisfied because there is a higher
probability of unfavourable events in the service process to be encountered and vice versa for
shorter distances in city buses. For example, due to the long distances of intercity buses (B2),
the average duration of lateness is expected to be higher than those of city buses (B1).
2) Competition: Research has shown that customer complaint behaviour varies across
different market structures (Best and Andreasen, 1977). City buses (B1) operate in a
monopolistic market structure because there is only one company in Karlstad that offers
public bus services. In addition, alternative modes are very expensive. For example, taxi or
private cars are more expensive. Intercity buses (B2) operate in a loose monopolistic market
structure because some destinations can be reached by train. So passengers living in these
areas can use the train whose prices are comparatively almost similar.
3) Prices of tickets: The tickets of intercity buses (B2) are more expensive than those of city
buses (B1) because the distances of the latter are longer. This will have an impact on
complaint behaviour especially due to the fact that the prices of the tickets will have an
impact on the consumers‟ perception and expectations as well as his analysis of the cost
benefits of complaining. Variations in the costs and benefits of complaining have been
researched by Andreasen (1988) and Richins (1980) and it has been proven to influence
consumers complaining behaviours. Consumers will be more likely to complain if the prices
of their tickets are high and vice versa.
4) Frequency of bus usage: Passengers of city buses (B1) are more likely to use this service
more often than those of intercity buses (B2). However, passengers who live in the outskirts
of Karlstad use the intercity buses (B2) daily as they travel to and from work and for other
reasons. Consumers who use a service frequently are more likely to experience unfavourable
service encounters, hence complaint more and vice versa.
5) Bookings: Most passengers of intercity buses (B2) make travel reservations (purchase
tickets) online, partly due to the fact that their trips are usually planned in advance and also
due to the discounts on prices of tickets purchased online. On the contrary, most passengers of
city buses (B1) purchase their tickets directly from the driver or charge their tickets using the
card charging machines in the bus which are often out of use due to technical problems and
ageing. This has increased customer complaint as well as decreased perceived service
34
performance of city buses (B1). The use of the net increases flexibility (24 hour services) and
gives room for self-service (co-production and co-creation) which increases consumer
satisfaction.
3.2 Data Collection (Questionnaire, sample size and data description)
This section provides a detailed description of our questionnaire showing how and why it was
designed. In addition, we shall provide detailed explanations to the questions in the
questionnaire and their relevance to this research. We shall describe our data set (mean, age,
gender and income) and show the sample size and how it was determined. We shall also
describe the sampling method by explaining how respondents were selected and access
negotiated.
3.2.1 Questionnaire design
The questionnaire used in the survey was divided into four sections as follows:- Section 1:
SERVQUAL dimensions, Section 2: Complaint Behaviour, Section 3: Complaint barriers and
Section 4: Personal Questions. We shall focus the sections that are relevant to this research
and provide detailed description and purpose of the design and questions. We intentionally
avoided numbering the questions in order to reduce the likelihood of discouraging
respondents from participating in the survey. See questionnaire in appendix.
3.2.1.1 Section 1: SERVQUAL Dimensions
The questions in this section were designed within the framework of SERVQUAL. The
questions were modified in order to make them relevant to the public bus transportation
industry. Consequently, the broad areas within the entire service that are not or are doing well
as well as their importance to the overall evaluation of service quality as perceived by the
customer can be unfolded. Moreover, in order to take into consideration the fact that service
quality is subjective, designing the questions within the framework of SERVQUAL makes it
possible to assess the impact of service interaction, service experiences, service processes and
customer-employee relationships on overall service quality. In this regard the effectiveness of
SERVQUAL in measuring service quality will be fully „captured‟ while taking into
consideration the subjectiveness of service quality.
35
A total of 22 questions were asked and these questions were distributed amongst the five
dimensions as follows:-
1. Reliability (4 Questions) 4. Empathy (2 Questions)
2. Responsiveness (8 Questions) 5. Tangibles (4 Questions)
3. Assurance (4 Questions)
The respondents had the choice of rating service quality of each question based on a scale
from 1 to 7 with the following descriptions:-
1= Very Bad 5=Good
2= Bad 6= Very Good
3= Insufficient 7= Excellent
4= Satisfactory
The first column measures the service quality of business level 1 (Karlstad City Bus) and the
second column measures the service quality of business level 2 (Intercity Buses like Swebus
and Värmland Traffik).
Description of questions in the questionnaire
Group 1: (reliability dimension): These questions measure the reliability dimension of
SERVQUAL in public transportation.
Question 1: Are the bus services provided as expected?
This question measures the extent to which the bus services are provided as promised by the
service providers or as expected by the customer based on his experience or perception. This
will enable us to measure the difference between customer expectation and the current
performance of the service.
Question 2: Are the employees good at handling customers‟ problems?
This question measures the extent to which employees can be relied upon in handling the
customers‟ service problems.
Question 3: Are the buses punctual? This question measures the extent to which bus services
are provided at the promised time.
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Question 4: Are the bus reservations and bookings reliable? This question measures the
extent to which the service company maintains error-free records. In addition, it also measures
the extent to which online bookings which makes use of technology are reliable. Based on
this, it would be possible to determine the impact of technology on customer satisfaction.
Group 2: (responsiveness dimension): These questions measure the responsiveness
dimension of SERVQUAL in public transportation.
Question 1: Is the timetable easy to understand?
This question measures the extent of the clarity of travel information published by the service
company. This question reveals the ease with which the customers can obtain information
about the bus departures and arrivals.
Question 2: Is the timetable always available and respected by buses?
This question measures the extent to which customers are well informed about travel times
and destinations and whether the service providers respect and fulfil their promises. Some
passengers complained that some buses arrive/depart either earlier or later than the time
mentioned on the time table. This can decrease service quality from the customers‟
perspective.
Question 3: Does buying tickets in the bus by others delay your journey?
This question is aimed at measuring the efficiency of the service process (buying a ticket and
moving to the seats). It would determine whether passengers find this process efficient or not.
Sometimes, passengers have to wait for a long-time in the queue before being served by the
bus driver.
Question 4: Do the employees demonstrate willingness to help whenever you have a
problem?
This question is aimed at measuring the extent to which the employees demonstrate
willingness to help customers in the event of difficulties with the service. This measure is
from the customers‟ perspective.
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Question 5: Are you satisfied with the number of bus stops?
This question investigates whether the customers are satisfied with the number of bus stops
available. Are the bus stops too many or too few? Fewer bus stops could mean that the
passengers have to walk for long distances before boarding the bus or too many bus stops
could mean that the bus stops too often. All these issues could significantly affect the quality
of the service from the customers‟ perspective.
Question 6: Are you satisfied with the bus intervals?
This question investigates the time interval between the arrivals/departure of each bus. If the
time interval is high, this could mean that the passengers wait for too long before a bus arrives
and this will decrease the quality of the service from the customers‟ (passengers‟) perspective.
Question 7: Are you satisfied with the closing time of bus services?
This question investigates whether the customers are satisfied with the times that the last
buses travel in the night and when the first buses start travelling in the morning. This could
significantly influence service quality from the customers‟ perspective because if this could
mean that they are not able to use the buses when needed at night or too early in the morning.
Question 8: Are you satisfied with the bus destinations?
This question investigates whether the buses travel to the desired destinations of the
customers. This will significantly determine whether customers‟ needs and wants (requests)
are readily responded to by the bus company.
Group 3: (assurance dimension): These questions measure the assurance dimension of
SERVQUAL in public transportation.
Question 1: Do you feel safe using the bus charge cards?
This measures the extent to which passengers feel safe and are confident with their
transactions with the company, for example when they use their electronic cards to make
payments on the bus.
Question 2: Are the bus drivers careful?
This question investigates the extent to which they feel safe during a bus trip. Some
respondents complained that the bus drivers were too fast and careless. If this is the view of
38
the majority of passengers, then this will significantly influence the quality of the service as
perceived by the customers.
Question 3: Do the employees always have a solution to your problems?
This question measures the ability of the employees in solving the problems of the customers.
A low rating would mean that the employees do not have adequate knowledge or skills to
solve the problems of the customers and this could significantly influence the quality of the
service as perceived by the customer.
Question 4: Do the employees always tell you to refer to someone else or someone
senior?
This question measures the efforts and determination of the employees in assisting customers
in using the services of the bus company. Referral to a senior employee would demonstrate
the willingness of the employee to guide the customer to the right department of the company
where he or she can get their problems solved.
Group 4 - (empathy dimension): These questions measure the empathy dimension of
SERVQUAL in public transportation.
Question 1: Do the employees assist handicap passengers, children and seniors?
This question investigates and measures the willingness and ability of the employees to assist
needy passengers in a caring fashion as well as offer individual attention. The way employees
handle other passengers could significantly influence the service quality of the customer
involved as well as another customer in the bus but who observes the behaviour of the
employee.
Question 2: Do the employees prevent disrespectful passengers from disturbing others?
This question measures the extent to which employees have the customers‟ best interest at
heart by preventing other passengers from hurting others. The behaviour of other passengers
can significantly influence the perception of service quality other passengers travelling in the
same bus.
Group 5: (tangibles dimension): These questions measure the tangible dimension of
SERVQUAL in public transportation.
39
Question 1: Are the buses clean and pleasant to be in?
This question measures the tidiness of the buses and the visually appealing facilities in them
like the seats. If low, the consumer may view the service as low in quality and vice versa.
Question 2: Are there often problems with the Card Punching Machines?
This question measures the effectiveness of the card punching machines in the bus. There
were cases of functional defects and this can significantly decrease the quality of the service
as perceived by the customer.
Question 3: Are the bus stops comfortable (seats, roof, timetable, board, ticket machines)?
This measures the comfort and beauty of the visual facilities at the bus stops. This can
significantly influence the customers‟ perception of quality of the service because the events
during the period of waiting can have a significant impact on his or her perception before
using the core service (bus ride).
Question 4: Do you like the design of the tickets (shape and material, and information)?
This measures the quality of the paper and the information on the tickets as perceived by the
customer. These visually appealing materials can have a significant influence on the service
quality as perceived by the customer.
3.2.1.2 Section 2 - Complaint Behaviour and Real Incident Question
In this section, the Real Incident Questions (Yes and No Question) are relevant to this
research. These questions are aimed at identifying the number of respondents who have
actually encountered a negative service experience. What exactly was it and how did they
react?
Question 1: Have you ever had an unfavourable experience using public buses (within the
last 12 Months)? (Yes or No).
This question measures the number respondents who had actually encountered an
unfavourable service experience within the last 12 months.
Question 2: If yes, what kind of problem occurred?
In this question, the respondents describe the problems they experienced. This was an open
end question so that we could obtain as much information as possible about the problem that
occurred.
40
3.2.2 Sample Size, sampling method and description of data set
Below is a brief description of how we determined the required sample size for this research.
In addition, we also described the sampling method and finally the data set we used which is
basically our sample.
3.2.2.1 Sample size
Our sample was drawn from the population of Karlstad City. We made sure that our sample
size should be large enough so that the results from the sample can be extrapolated to the
entire customer group of business level 1 and 2. We consider extrapolation to be very
important in producing valid results. Based on the results from our sample, we want to be
able to say with 95% confidence interval that the whole target customer base is acting,
feeling, behaving or complaining about this industry in the same manner as the survey
sample. We used the formula below in determining the sample size needed so that the survey
results should be accurate at the 95% confidence level which literally means that the
possibility of the results occurring by chance is 5 percent. According to Anton (1996, p.89)
the formula to determine the sample size required is as follows:-
Sample Size = 2500* N * (1.96)2 / (25(N-1)) + (2500 * (1.96)
2)
N: Total Population (Population of Karlstad City).
(1.96): The confidence coefficient: Z-score.
The population of Karlstad (Municipality) is 82,096 inhabitants (Statistiska Centralbyrån,
Sverige: 2005). Based on the above formula, the minimum sample size required for this
research should be 382 respondents determined as follows:-
2500*82096*3.8416/ 25(82,096-1) + (2500*3.8416) = 382.4 respondents
However, our sample was well above this minimum requirement by 224.6 (607- 382.4). Due
to the fact that some respondents did not provide answers to all the questions in the
questionnaire, the number of respondents who answered some questions could be lower than
607.
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3.2.2.2 Sampling Method and interviews
To ensure that our sample actually included the customer base of business level 1 and 2, we
handed in our questionnaire to people who actually use the public transportation. In this
regard we decided to use a judgmental sampling method because this would ensure reliable
answers since the respondents would be people who actually use the services of the
companies (business level 1 and 2). We did not hand in questionnaires to people who had not
used the services of the companies in the last 12 months (that is we included only those
people who had used the bus companies within the last 12 months from the day we
interviewed them). Therefore our criteria for selecting respondents were as follows:-
1. Active users: Respondent should be a regular user of business level 1 or 2
2. Passive user: If the respondent is not an active user, he should have used the bus
companies in question at least once in the last three months (From the date of
interview).
3. Gender: We also tried to guarantee a balance in gender proportion.
Based on the criteria above, the appropriate sampling method for this survey was judgmental
sampling method.
In order to ensure that our sample included a wide range of respondents with different
demographic and socio-economic characteristics, we made sure that there was no wide
discrepancy between the proportion of male and female. We also made sure that our sample
included people of all age groups who use the public transport in Karlstad. In addition, we
interviewed people who were students as well as fully employed so that the respondents
should have a wide distribution of income. We also interviewed students as well as people in
different parts of the city like Parks and shopping centers like Bergvik where we knew that
there is a high chance of interviewing people with higher income levels. We also interviewed
passengers in the bus to be sure that they were users of public buses as well as meet those
people who are living in the outskirts of Karlstad city (Locality/Urban area).
Interviews
We interviewed and conducted our field survey over a period of three months so that we
could increase the chances of meeting/interviewing different people from different
backgrounds and with different demographic and socio-economic characteristics. We
42
conducted face-to-face interviews with respondents who had encountered problems in order to
get an insight of the problems and understand their feelings as well as assess their experience
with the use of technology in the service. Their feedback and feelings could not be obtained or
detected from the questionnaires. With regards to face-to-face interviews with the
respondents, we used the questionnaire described above as a base for our interview. We asked
them to give us reasons for their answers in the questionnaire which we used as a base to
make interpretations and inferences about the results in the questionnaire. We proceeded by
using some of their (customers, passengers) feedbacks and reasons for their answers to
interview the manager of customer and employee complaint management of SWEBUS. The
interview with the manager was conducted at the headquarters of the SWEBUS in Karlstad
and it lasted for approximately two hours including a 30 minutes break. We conducted the
interview twice on two different days. The first interview was conducted after we had carried
out our field survey interviewing the customers and analyzed their responses. The second
interview was conducted a week after the first interview and this interview was based on the
customer complaint (From 02 June 2008 to 02 June 2009) the management of SWEBUS had
received and handed to us by the management of the company. We also used the
comments/feedback of the manager to have an insight of some of the problems facing the
company and also the reasons why some customer complaint have not been solved by the
company until the time of the interview. We also got vital information from management
regarding the effectiveness of technology in boosting employee and service performance,
hence customer satisfaction.
3.2.2.3 Description of sample (Data set)
As mentioned before, the total number of respondents who participated in our survey was
607. The socio-economic characteristics respondents of the sample are as follows:-
Gender: 49.59% (301) were female and 50.41% (306) were male.
Age: The age distribution of respondents ranged from 17 to 62 years (46 years being
the difference between the maximum and the minimum age).
Income Level: Our respondents were divided into three income groups as follows:-
Income level 1 (0- 10.000 SEK): Income Level 2 (10.001-20.000 SEK) and Income
Level 3 (20.001 SEK- above) on monthly basis. Percentage of respondents in each
income level:- Income Level 1: 62.83%, Income Level 2: 27.79% and Income Level 3:
9.36%
43
Frequency of bus usage: Below are the percentages of the frequency of bus usage by
the respondents:- Active Users: 71.87%; Passive Users: 28.12%
3.3 Data analysis
In this section, we shall describe how the data from our survey was analyzed in order to
provide answers to the research questions in this report. The analysis was done as follows:-
Step 1: Analyses of data from section 1 of the questionnaire
In step 1, we analyzed the results of the questions in section 1 of the questionnaire. The
respondents were allowed to rate (1 to 7) the service quality (perceived service quality) of the
questions. It must be noted that each question measures the service quality of a particular area
of the service process. In this regard, a low rating will imply a low perceived service quality
and a wider Gap-5 and vice versa. The mean of each question at business level 1 and 2 were
obtained by determining the sum of all the ratings apportioned to that particular question
divided by the number of respondents who answered that question (607 respondents). The
mean of both business level 1 and 2 were added together and divided by two (B1+B2/2) to
obtain the mean at industry level which implies service quality at industry level. Based on the
mean of each question at industry level, Gap-5 at industry level was determined. We then
ranked all the questions according to the size of their Gap-5 (from those with small Gap-5
implying higher means or service quality and down to those questions with large Gap-5 and
lower means implying lower service quality). Based on the sizes of Gap-5, we would
investigate whether more customer complaint from both our survey and those received by the
management of SWEBUS came from those areas (questions) with large Gap-5 and vice versa.
For easier analyses and interpretation of results of the questions, we converted the means at
industry level into percentages so that the size of Gap-5 can easily be distinguished from the
maximum of 100%. For example, if the mean at industry level is 6, this implies that perceived
service quality is 85.71% (6/7*100) and Gap-5 would be 14.29% (100-85.71% or 1/7*100).
We preferred to consider the means/Gap-5 of each question at industry level because the
analyses will take into consideration the differences of the service characteristics of both
business levels. This will provide a reliable platform to interpret the results of the
questionnaire and make generalisations about the public transportation industry which is more
relevant to the research questions of this thesis.
44
Step 2: Analyses of customer complaints from our survey and that received by the
management of SWEBUS.
In this step, we created a table of customer complaints in section 2: Real incident questions in
the questionnaire, where we grouped the complaints from respondents into 10 categories.
Similarities in complaints depending on the area of the service process in which they occurred
were grouped under the same category. The complaint categories were ranked according to
their frequency (highest to lowest) and in this regard it was possible to identify the areas of
the service process where complaints were high, hence service quality will be perceived by
the customers as low and vice versa. We also ranked the complaints from customers received
by the management of SWEBUS from 02 June 2008 to 02 June 2009. It must be noted that the
complaints were already grouped into 11 categories before handed to us. We ranked them
from those with the highest frequency down to the lowest frequency of complaints.
Comparisons between the two tables were made in order to confirm accuracy of our survey.
The question in section 2 of our questionnaire was an open end question because we wanted
the respondents to be able to describe the problems the encountered so that we would be able
to get as much information as possible as well as be able to use this information to identify the
areas of the service process from which the problem may have originated.
Step 3: Comparison of results in step1 and step 2
We compared Customer complaints from our survey and those received by the management
of SWEBUS with the questions in section 1 of questionnaire in order to investigate the
effectiveness of SERVQUAL in measuring service quality and the increase customer
satisfaction through the use of technology. We began by analysing the questions according to
the five dimensions of SERVQUAL, thus providing an overview of the performance of the
dimensions at both business levels by revealing the areas of the service process which had the
highest service quality and down to the lowest. In this regard we would be able to already
identify those areas from which more complaints are likely to come from and that the
questions from the dimensions with the lowest means are likely to rank low indicating low
service quality and customer satisfaction.
After analysing and ranking the complaints from our survey and that of management of
SWEBUS, we compared both complaint tables in order to identify similarities, patterns,
trends as well as determine whether our complaint survey was similar to that received by the
45
management of SWEBUS. This was important because we used these complaint tables as a
platform to investigate the research questions developed within the framework of
SERVQUAL dimensions in order to assess their effectiveness in measuring service quality in
public transportation. We compared the complaints from both tables and determined whether
the areas of the service process with large Gap-5 were related to the areas of complaint from
customers. Based on this comparison, we were able to provide a response to our research
questions. We also compared the differences in perceived service quality between business
level1 and 2 in order to confirm the effectiveness of SERVQUAL in measuring service
quality as well as the impact of technology on customer satisfaction while taking into account
the differences in service characteristics of both business level 1 and 2. This provided an in-
depth understanding of the impact of service characteristics on service quality and customer
satisfaction.
4 Results
The results presented here follow the sequence described in the analysis in chapter 3.3 above
and they are as follows:-
4.1 Step 1: Results of questions data from section 1 of the questionnaire
In this section we provide the results of the questions in section 1 according to the five
dimensions and thereafter we list the results according to their rankings at industry level.
4.1.1 Means according to the five dimensions
This section is aimed at giving us an overview of the performance of the dimensions at both
business levels so that we can already have a clue of the areas of the service process which
had the highest down to the lowest service quality. In this regard we would be able to already
identify those areas from which more complaints are likely to come and that the questions
from the dimensions with the lowest means are likely to rank low indicating low service
quality and customer satisfaction.
46
5,15,2
4,7
4,44,6
4
4,5
5
5,5
Quality Dimens ions K arls tad C ity B us es
R eliability R es pons ivenesAs s urance E m pathyTang ibles
Graph 1a: Means of service quality
dimensions of business level 1
5,155
4,8
4,6
4,9
4,2
4,4
4,6
4,8
5
5,2
Quality dimentions of Interc ity bus es
R eliability R es pons ivenes As s uranceE m pathy Tang ibles
Graph 1b: Means of service quality
dimensions of business level 2
The graphs above shows the ratings of business level 1 and 2 service performance (service
quality) according to the five dimensions as perceived by the customers. These means could
be interpreted as the level of customer satisfaction/service quality according to the five
dimensions. The smaller the size of Gap-5 for each dimension the higher the level of
perceived service performance (satisfaction) it contributes to the overall service quality in
public transportation (bus companies) and vice versa. The SERVQUAL dimensions for city
buses (business level 1) scored the following points (ranked from highest to lowest):-
1) Responsiveness 5.2 (74.29%); Gap-5 25.71% 4) Tangibles 4.6 (65.71%); Gap-5 34.29%
2) Reliability 5.1 (72.86%); Gap-5 27.14% 5) Empathy 4.4 (62.86%); Gap-5 37.14%
3) Assurance 4.7 (67.14%); Gap-5 32.86%
The SERVQUAL dimensions for business level 2 scored the following points (ranked from
highest to lowest):-
1) Reliability 5.15 (73.57%); Gap-5 26.43% 4) Assurance 4.8 (68.57%); Gap-5 31.49%
2) Responsiveness 5 (71.43%); Gap-5 28.57% 5) Empathy 4.6 (65.71%); Gap-5 34.29%
3) Tangibles 4.9 (70%); Gap-5 30%
4.1.2 Raking at industry level
Below is the ranking of the questions in section 1 based on the sizes of Gap-5 from the
smallest down to the largest.
1) Q1=79.5%; Gap-5:20.6% (Responsiveness) 12)Q6=71%;Gap-5:29% (Responsiveness)
2) Q1=78.5%; Gap-5:21.5% (Assurance) 13)Q4=70.7%;Gap-5:29.3%(Responsiveness)
3) Q8=78.3%: Gap-5:21.7% (Responsiveness) 14)Q2=69.5%;Gap-5:30.5% (Assurance)
4) Q5=76.5%: Gap-5:23.5% (Responsiveness) 15)Q3=68.3%;Gap-5:31.7% (Assurance)
47
5) Q1=75.5%: Gap-5:24.5% (Reliability) 16)Q3=65.9%;Gap-5:34.1% (Tangible)
6) Q2=73.7%: Gap-5:26.3% (Responsiveness) 17)Q1=65.6%;Gap-5:34.4% (Empathy)
7) Q3=73.5%: Gap-5:26.5% (Reliability) 18)Q7=65.2%;Gap-5:34.8%(Responsiveness)
8) Q4=73.4%: Gap-5:26.6% (Reliability) 19)Q2=62.8%;Gap-5:37.2% (Tangible)
9) Q1=72.2%: Gap-5:27.8% (Tangible) 20)Q2=62.6%;Gap-5:37.4% (Empathy)
10) Q4=71.9%: Gap-5:28.1% (Tangible) 21)Q3=62.2%;Gap-5:37.8%(Responsiveness)
11) Q2=71.2%; Gap-5:28.8% (Reliability) 22) Q4=57.2%; Gap-5:42.8% (Assurance)
1) Q1- Responsiveness: Is the timetable easy to understand? At industry level Q1=79.5%;
Gap-5:20.6%. Gap-5 of Q1 was smaller (20.14%) and in terms of perceived service quality
(satisfaction) ranked first in the responsiveness dimension of business level 2 (B2). In
business level 1 (B1) Gap-5 was larger (21%) and ranked second in the responsiveness
dimension, indicating that consumers find it easier to understand the time table of B2 than B1.
This question ranked first in terms of perceived service quality (customer satisfaction) for the
responsiveness dimension in B2. Consumers complained that the timetable of B1 was more
complicated to understand because of regular departures. However, it must be noted that
most users of B2 purchase their tickets online and therefore view the time table as well online
and this could have an impact on them. Therefore, a more crowded and complicated timetable
is more likely to decrease perceived service quality and increase customer complaint and vice
versa.
2) Q1-Assurance: Do you feel safe using the bus charge cards? At industry level
Q1=78.5%; Gap-5:21.5%. Gap-5 of Q1 was smaller (20.14%) and in terms of satisfaction
ranked first in the assurance dimension of B1. In B2 Gap-5 was larger (23%) and also ranked
first, indicating that consumers feel safe using the bus charge cards in both B1 and B2. This
question ranked first in terms of customer satisfaction for the assurance dimension in B2 but
customers feel safer in B1 than B2. Therefore, less reliability of charge cards are more likely
to decrease perceived service quality and increase customer complaint and vice versa.
3) Q8-Responsiveness: Are you satisfied with the bus destinations? At industry level
Q8=78.3%: Gap-5:21.7%. Gap-5 of Q8 was smaller (20.43%) and in terms of satisfaction
ranked first within the responsiveness dimension of B1. In B2, Gap-5 was larger (23%) and
ranked second within the responsiveness dimension of B2, indicating that consumers are more
satisfied with the destinations of B1 than of B2. Based on consumers‟ complaints this is
48
because B1 travel to more destinations within the city than B2 does between cities and towns
around Karlstad city and within Sweden. Therefore, fewer bus destinations are more likely to
decrease perceive service quality and increase customer complaint and vice versa.
4) Q5-Responsiveness: Are you satisfied with the number of bus stops? At industry level,
Q5=76.5%: Gap-5:23.5%. Gap-5 of Q5 was smaller (21.14%) for B1 and in terms of
satisfaction ranked third within the responsiveness dimension B1. In B2 Gap-5 was larger
(25.86%) and also ranked third within the responsiveness dimension of B2. This implies that
consumers are more satisfied with the number of bus stops for B1 than for B2. Consumers
complained that B2 does not stop in some places they would wish. Therefore, fewer bus stops
will more likely decrease perceived service quality and increase customer complaint and vice
versa.
5) Q1-Reliability: Are the bus services provided as expected? At industry level
Q1=75.5%: Gap-5:24.5%. Gap-5 of Q1 was smaller (23%) in B1 and in terms of satisfaction
ranked first within the reliability dimension in B1. In B2 Gap-5 was larger (26%) and ranked
second within the reliability dimension in B2. More consumers agree that the bus services of
B1 are provided as expected than in B2. Therefore, customer complaint is more likely to be
increase and perceived service quality decrease if consumers perceive that bus services are not
provided as expected and vice versa.
6) Q2-Responsiveness: Is the timetable always available and respected by buses? At
industry level Q2=73.7%: Gap-5:26.3%. Gap-5 of Q2 was smaller (24.86%) in B1 and in
terms of satisfaction ranked fifth within the responsiveness dimension in B1. In B2 Gap-5 was
larger (27.57%) and ranked fourth within the responsiveness dimension in B2. It implies that
consumers are more satisfied with the availability and respect of the timetable by the city
buses than by the intercity buses. Based on the fact that the average that the average duration
of lateness by the intercity buses is longer than that of city buses, consumers perceive intercity
buses as paying less attention to their schedules. Therefore, the absence of a timetable as well
as paying less attention to the timetables is more likely to increase customer complaint and
decrease perceived service quality and vice versa.
7) Q3-Reliability: Are the buses punctual? At industry level Q3=73.5%: Gap-5:26.5%.
Gap-5 of Q3 was smaller (24.43%) for B1 and in terms of satisfaction ranked second within
49
the reliability dimension of B1. In B2 Gap-5 was larger (28.71%) and ranked fourth within the
reliability dimension of B2. This implies that B1 are more punctual than B2. Consumers
complained that B2 buses are often on average 10 to 15 minutes late whereas the B1 buses are
usually 5 to 10 minutes late. Based on the theory of zone of tolerance (Woodruff et al, 1983)
which “characterises customers‟ service expectations by a range of levels rather than a single
level”(Tronvoll, 2008:14, appendix p.5) one gets the impression that bus users in this survey
are more likely to tolerate lateness of 5-10 minutes than 10-15minutes or more. However, it
must be understood that intercity buses (B2) travel longer distances and usually when there is
a delay; they would require more time to catch-up than the city buses (B1) would meanwhile
city buses stop more often and as a result can easily reduce the time of lateness between bus
stops. Therefore, customer complaint is more likely to be high if lateness of a bus exceeds 10
minutes and vice versa.
8) Q4-Reliability: Are the bus reservations and bookings reliable? At industry level
Q4=73.4%: Gap-5:26.6%. Gap-5 of Q4 was larger (28.57%) for B1 and ranked third in terms
of satisfaction within the reliability dimension of B1. In B2 Gap-5 was smaller (24.57%) and
ranked first within the reliability dimension of B2. Consumers are more satisfied with the bus
reservations and reliability of bookings in B2 buses than in B1 buses. This is because most
reservations and bookings for B2 buses are done online whereas in B1 buses, passengers
mostly purchase tickets from the drivers or from the city bus (B1) offices around town. This
reveals that Gap-5 is more likely to be wider if more customers interact with the employees
and vice versa. There are more moments of truth and these increases the chances of mistakes
to be made, hence more customer complaints. Therefore, customer complaint is more likely to
be increase if the bus reservations and bookings are not reliable. In addition, this research
seems to suggest that the higher the level of automation or technology, the higher the level of
perceived service quality and customer satisfaction and the smaller the size of Gap-5 and vice
versa.
9) Q1-Tangible: Are the buses clean and pleasant to be in? At industry level Q1=72.2%:
Gap-5:27.8%. Gap-5 of Q1 was larger (31.14%) for B1 and in terms of satisfaction ranked
second within the tangible dimension of B1. In B2 Gap-5 was smaller (24.57%) and ranked
first within the tangible dimension of B2. Passengers agreed and gave high ratings that B2
buses are cleaner and pleasant to be in than B1 buses. B2 buses are cleaner and look newer
and more comfortable especially due to the fact that they are used for long distances and the
50
passengers are all seated during the trip/journey and are more disciplined or quiet. Therefore,
customer complaint is more likely to be higher and service quality lower, if passengers
perceive a bus to be dirty, less comfortable and unpleasant to be in and vice versa.
10) Q4-Tangible: Do you like the design of the tickets (shape and material, and
information)? At industry level Q4=71.9%: Gap-5:28.1%. Gap-5 of Q4 was larger (30.71%)
for B1 and in terms of satisfaction ranked first within the tangible dimension of B1. In B2
Gap-5 was smaller (25.57%) and ranked second within the tangible dimension of B2.
Passengers agree and give high ratings that they like the design of the tickets of B2 than of B1
buses. The tickets of B2 buses have a nicer design and usually have more information about
the trip on them. This is also due to the fact that passengers of B2 buses pay higher fares than
in B1 buses. Therefore, customer complaint is more likely to be higher and perceived service
quality lower, if passengers do not like the design of the tickets and vice versa.
11) Q2-Reliability: Are the employees good at handling customers’ problems? At
industry level Q2= 71.2%: Gap-5: 28.8%. Gap-5 of Q2 was larger 30.71% in B1 and ranked
fourth within the reliability dimension of B1. Gap-5 of Q2 was smaller 26.86% in B2 and
ranked third within the reliability dimension of B2. Based on feedback of respondents, they
said that drivers of B2 take time to listen to their complaints as well as offer information about
their destinations than the drivers of B1. This is obvious because the drivers of B1 buses
usually have more passengers boarding at the same time during the journey and as a result
cannot have enough time to listen to every complaint put before them. Respondents also
complained of overcrowding in B1 buses. Moreover, due to the fact that passengers of B2 pay
more money for the service, the level of attention given to the passengers is higher than that
of B1. During our survey, we realised that there was a significant difference in the number
passengers boarding B1 buses and B2 buses at every stop. That of B1 buses was on average 5
times more than B2 buses. In this regard, customer complaint is more likely to increase and
perceived service quality decrease if employees do not listen to the customers due to over
crowded buses.
12) Q6-Responsiveness: Are you satisfied with the bus intervals? At industry level,
Q6=71%; Gap-5:29%. Gap-5 of Q6 was smaller (22.43%) for B1 and in terms of satisfaction
ranked fourth within the responsiveness dimension of B1. In B2 Gap-5 was larger (35.71%)
and ranked seventh within the responsiveness dimension of B2. It implies that consumers are
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more satisfied with the bus intervals of B1 than B2. Consumers complained that they usually
have to wait for as long as 30 minutes or more for B2 buses in the event that they missed one.
We noticed that the average time interval between each B2 bus was on average between 30-60
minutes compared to B1 buses which have average time intervals of 10 minutes. Therefore,
longer time intervals of buses are more likely to increase customer complaint and decrease
perceived service quality and vice versa.
13) Q4-Responsiveness: Do the employees demonstrate willingness to help whenever you
have a problem? At industry level, Q4=70.7%; Gap-5:29.3%. Gap-5 of Q4 was larger
(29.71%) for B1 and ranked sixth in terms of satisfaction within the responsiveness dimension
of B1. In B2 Gap-5 was smaller (28.86%) and ranked fifth within the responsiveness
dimension in B2. This implies that consumers perceive the employees of B2 to demonstrate
more willingness to help than in B1, whenever they (consumers) have a problem. It must be
noted that consumers of B1 buses have more interactions with the employees (more
passengers buy tickets in the bus) than in the B2 buses (more passengers buy tickets online).
As a result, drivers may be over stressed to solve the problems of many customers. In
addition, because customers of B1 buses buy tickets on the bus, drivers usually have a lot of
money in the bus. Consequently, they are scared of interacting or talking to the passengers for
fear of being rubbed. According to the feedback of the manager of customer and employee
complaint Mr Peter Enquist at SWEBUS, a driver is being rubbed on average every week in
Karlstad and the nearby towns. This therefore discourages drivers to assist passengers because
they do not know who could be a rubber. Therefore, customer complaint is likely to increase
and perceived service quality decrease whenever consumers perceive employees as being less
willing to solve their problems. It is more severe when the customer believes that the
employee is able to solve the problem but shows little interest.
14) Q2-Assurance: Are the bus drivers careful? At industry level Q2=69.5%; Gap-
5:30.5%. Gap-5 of Q2 was smaller (32.71%) in B2 and in terms of satisfaction ranked second
within the assurance dimension in B2. In B1 Gap-5 was larger (28.43%) and also ranked
second within the assurance dimension in B1, indicating that consumers perceive the drivers
of B2 buses to be more careful than those of B1 buses. However, it must be noted that B2
buses use the highways more and as a result travel on higher speed than B1 buses which drive
in the city with more traffic. Therefore, customer complaint behaviour is more likely to
52
increase and perceived service quality decrease if consumers perceive drivers as not being
careful and vice versa.
15) Q3-Assurance: Do the employees always have a solution to your problems? At
industry level Q3=68.3%; Gap-5:31.7%. Gap-5 of Q3 was larger (32.71%) for B1 and in
terms of satisfaction ranked second within the assurance dimension of B1. In B2 Gap-5 was
smaller (30.71%) and ranked third within the assurance dimension of B2. More consumers
agree that the employees of B2 always have a solution to their problems than in B1.
Therefore, customer complaint is more likely to increase as well as become more severe, if
consumers perceive that employees do not always have a solution to their problems and vice
versa.
16) Q3-Tangible: Are the bus stops comfortable (seats, roof, timetable, board, ticket
machines)? At industry level Q3=65.9%; Gap-5:34.1%. Gap-5 of Q3 was larger (34.57%) for
city buses and in terms of satisfaction ranked third. In B2 Gap-5 was smaller (33.71%) and
also ranked third within the tangible dimension in B2. Passengers agree and give high ratings
that the bus stops of B2 are more comfortable than those of B1. Generally B2 have larger and
well built buildings. This is probably because these buses travel long distances and as a result
departure intervals are wider, hence passengers require more comfortable environment to wait
for these buses. The bus stops of B1 are usually built for convenience, thereby making them
very simple and less comfortable. Therefore, customer complaint is more likely to be increase
and perceived service quality decrease if passengers perceive the bus stops as uncomfortable.
17) Q1-Empathy: Do the employees assist handicap passengers, children and seniors?
At industry level Q1=65.6%; Gap-5:34.4%. Gap-5 of Q1 was larger (34.86%) for B1 and in
terms of satisfaction ranked first within the empathy dimension of B1. In B2 Gap-5 was
smaller (33.86%) and also ranked first within the empathy dimension of B2. More
respondents agreed that the employees of B2 buses often assist handicap passengers, children
and seniors more than in B1 buses. Therefore, customer complaint is more likely to increase
and service quality decrease, if passengers perceive employees as not being willing to assist
handicap passengers, children and seniors and vice versa.
18) Q7-Responsiveness: Are you satisfied with the closing time of bus services? At
industry level, Q7=65.2%; Gap-5:34.8%. Gap-5 of Q7 was larger (36%) for B1 and ranked
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seventh in terms of satisfaction within the responsiveness dimension of B1. In B2 Gap-5 was
smaller (33.57%) and ranked sixth within the responsiveness dimension of B2. Consumers are
more satisfied with the closing time of B2bus services than that of B1. Many respondents said
that when they travel out of Karlstad and return late, they are obliged to use a taxi to get home
which is larger. However, from an economic point of view, the manager said that during the
week the B1 buses close earlier because after mid-night very few people use the bus, hence
would be uneconomical to allow drivers drive empty or almost empty buses around town.
However, on Fridays and Saturdays, the buses travel until the next day because many people
go out in the night on weekends. Customer complaint is more likely to increase, if consumers
are not happy with the closing time of bus services.
19) Q2-Tangible: Are there often problems with the Card Punching Machines?
At industry level Q2=62.8%; Gap-5:37.2%. Gap-5 of Q2 was larger (38.14%) for B1 and in
terms of satisfaction ranked fourth within the tangible dimension of B1. In B2 Gap-5 was
smaller (36.43%) and also ranked fourth within the tangible dimension of B2. Passengers
agreed that there are often problems with the card punching machines in B1 buses than in B2
buses. However, it must be noted that most passengers of B2 buses buy their tickets online
and by so doing avoid using the card punching machines in the bus. An increase in the use of
the net in public transportation is more likely to increase customer satisfaction. Therefore,
customer complaint is more likely to increase and perceived service quality decrease, if the
card punching machines are not reliable and vice versa.
20) Q2-Empathy: Do the employees prevent disrespectful passengers from disturbing
others? At industry level Q2=62.6%; Gap-5:37.4%. Gap-5 of Q2 was larger (40%) for B1
and in terms of satisfaction ranked second within the empathy dimension of B1. In B2 Gap-5
was smaller (34.86%) and also ranked second within the empathy dimension of B2. More
passengers agreed that the employees of B1 buses do not often prevent disrespectful
passengers from disturbing other passengers. Based on passengers‟ feedback as well as the
managers of the bus companies Peter Enquist (Swebus) confirmed that there are more cases of
drunken passengers in B1 buses than in B2 buses. They said it is more frequent on weekends.
Customer complaint is more likely to increase because of the negative comportment of other
passengers in the bus.
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21) Q3-Responsiveness: Does buying tickets in the bus by others delay your journey?
At industry level Q3=62.2%; Gap-5:37.8%. Gap-5 of Q3 was larger (39.29%) for B1 and
ranked eighth in terms of satisfaction within the responsiveness dimension of B1. In B2 buses
Gap-5 was smaller and also ranked eighth within the responsiveness dimension of B2. This
question scored the lowest points in both companies. Many consumers in both companies
agreed that buying tickets in the bus by other passengers delays their journey. However, the
impact is greater in B1 buses than in B2 buses. As mentioned before, this is due to the fact
that more passengers of B1 buses buy their tickets in the bus, hence longer delays as
compared to passengers of B2 buses who mostly buy their tickets online. Therefore, buying
tickets in the bus is more likely to increase customer complaint and decrease service quality
and vice versa.
22) Q4-Assurance: Do the employees always tell you to refer to someone else or someone
senior? At industry level Q4=57.2%; Gap-5:42.8%. Gap-5 of Q4 was smaller (42.57%) in B1
and in terms of satisfaction ranked third within the assurance dimension of B1. In B2 Gap-5
was larger (43%) and ranked third within the assurance dimension of B2, indicating that more
respondents agreed that employees of B1 buses always tell them to refer to someone else or
someone senior than in B2 buses. Consumers will always be happy if they are referred to
employees who can solve their problems. However, it must be noted that this might be a sign
that the frontline employees do not have the knowledge to solve their problems which may
lead to dissatisfaction especially in a situation where a passenger has little time. It must also
be noted that in the previous question (Q3-assurace) many passengers agreed that the
employees of B2 buses always solved their problems, hence less referrals are needed. Due to
the fact that many passengers would want to have their problems solved, customer complaint
is more likely to increase and perceived service quality decrease if passengers are not referred
to employees who have the knowledge to solve their problems.
4.2 Step 2: Results of customer complaints from our survey and that
received by the management of SWEBUS.
Below are two tables showing the number of complaints and their percentages in relation to
the total number of complaints made by respondents in our survey as well as those received
by the management of SWEBUS.
Question 1: Have you ever had an unfavourable experience using public buses (within
the last 12 Months)? Yes: 102 (16.80%) No: 505 (83.20%)
55
16.8% of the respondents had actually encountered an unfavourable service experience within
the last 12 months. 83.2% had not encountered an unfavourable service experience within the
last 12 months. However, those who had not experienced any unfavourable service said they
had witnessed other passengers encounter unfavourable service experiences which influenced
their perception of service quality in public transportation in B1 and B2.
Question 2: If yes, what kind of problem occurred?
The problems experienced by the respondents (16.8%) and the problem areas have been
grouped in the table below as follows (From the highest to the lowest):-
R Areas of complaint (Problem areas) Number of respondents %
1 Punctuality (Late arrivals or early departures) 34 33.33%
2 Rude drivers 14 13.73%
3 Bus did not stop 10 9.8%
4 Drunken passengers 9 8.82%
5 Card machine 8 7.84%
5 Noisy passengers 8 7.84%
6 Lack of driver‟s assistance 7 6.87%
6 Crowded Bus 7 6.86%
7 No Travel Information 4 3.92%
8 Passenger evicted from the bus 1 0.98%
10 TOTAL 102 100%
Table 2: Areas of the service process where complaints were made and number of
respondents who complained
R: Refers to the ranking of the problem areas based on the number of respondents who
encountered an unfavourable service experience in that domain.
%: Percentage of the number of respondents who encountered an unfavourable service
experience in that particular domain.
Below is a table showing the customer complaints received by the management of Karlstad
city bus, Värmland Trafik and SWEBUS from the period of 02 June 2008 to 02 June 2009. It
was made available to us by the manger of customer and employee complaint department Mr
Peter Enquist. This can be compared with table 1 above in order to see the difference between
our survey and the reality on the ground (Bus companies in question).
56
R Areas of complaint (Problem areas) Number of
respondents
%
1 Employees - (driving too fast, service, did not stop) 80 60%
2 Punctuality - (too late, too early) 16 12%
2 Traffic planning - (bus routes) 16 12%
3 Vehicles - (loud noise, vandalized seats) 8 6%
4 Prices and tickets (why are there no pensioner discount) 6 4.5%
5 Bus stops - (too far between, not suitable for wheel-
chairs)
4 3%
6 Travel guarantee - (very late) 1 0.8%
6 Technique - (homepage, electronic signs 1 0.8%
6 Rules - (why can‟t i take my bicycle on-board) 1 0.8%
11 TOTAL 133 100%
Table 3: Complaints received by the management of SWEBUS from the period of 02
June 2008 to 02 June 2009
R: Refers to the ranking of the problem areas based on the number of users of Karlstad city
bus, Värmland Trafik and Swebus who encountered an unfavourable service experience in
that domain.
%: Percentage of the number of respondents who encountered an unfavourable service
experience in that particular domain.
When comparing table 1 and table 2 above, it is evident that most complaints in both tables
came from those areas of the service process that directly involves the employees that is areas
of the service process that customers (passengers) can directly associate the blame for the
unfavourable service experience to an employee. This is due to the fact that services are
intangible and therefore any failure or unfavourable experience will always be associated with
the employee providing it. For example, in table 2, 33.33% of unfavourable service
experience was due to lack of punctuality, 13.73% due to the rudeness of the drivers, 9.8%
because bus did not stop, 6.8% due to lack of drivers‟ assistance and 0.98% due to eviction of
a passenger from the bus. This makes a total of 64.64% of problems coming from areas of the
service process in which a failure can be directly associated to an employee. In Table 3,
complaints made by customers were 60% due to employees (driving too fast, service, did not
stop), 12% due to lack of punctuality - (too late, too early) and 1% due to no travel guarantee -
(very late). This makes a total of 72.8% of problems coming from areas of the service process
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in which a failure can be directly associated to an employee (frontline employees). In this
regard, we can conclude that both complaint tables have similarities in terms of patterns,
trends of complaints and areas of the service process from which complaints originated.
Therefore, both tables provide a suitable and reliable platform to investigate the effectiveness
of SERVQUAL in measuring service quality and whether technology increases customer
satisfaction.
4.3 Step 3: Comparison of results in step1 and step 2 to answer research
questions
In this section, comparisons between section 1 and 2 is made in order to confirm the research
questions.
4.3.1 Is SERVQUAL effective in measuring service quality?
After comparing the results of section 1 and 2, we were able to confirm that SERVQUAL is
effective in measuring service quality in public transportation based on the following
reasons:-
4.3.1.1 The perspective of the SERVQUAL dimensions at industry level and business
level
From the perspective of the five dimensions, the service quality (service performance) at
industry level was as follows (from highest perceived service quality with smallest Gap-5 to
lowest perceived service quality :-
1) Reliability: 73.21% service quality and Gap-5 was 26.79%
2) Responsiveness was 72.86% service quality and Gap-5 was 27.14%
3) Assurance and Tangibles were 67.86% service quality and Gap-5 was 32.14%
4) Empathy was 64.29% service quality and Gap-5 was 35.71%
Empathy (Gap-5: 35.71%) ranked the lowest at industry level indicating that Gap-5 of the
questions of this service area was larger hence customer complaints came from these areas of
the service process as well. Evidence of this is that complaints sent to managers, 60% of them
came from employees either due to the fact that they were driving too fast, poor services by
them, or drivers did not stop. In table 2, 13.73% of complaints were due to rude drivers, lack
of driver‟s assistance, 9.8% because bus did not stop, and 0.98% passenger was evicted from
the bus all indicating inadequate service performance on the part of the employees. This
confirms that our questionnaire was able to „capture‟ and reveal this service deficiency in the
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overall service performance of both companies. At business levels, Gap-5 of the empathy
dimension was smaller (34.29%) for B2 (business level 2) and in terms of satisfaction ranked
fifth. In B1 (business level 1) Gap-5 was larger (37.14%) and also ranked fifth. This implies
that passengers are more satisfied with the level of empathy in the services of B2 than of B1.
Although empathy has the largest Gap-5 in both companies, it is more likely that more
complaints will come from the items of empathy dimension of B1 than from B2. Therefore,
empathy has a significant influence on service quality in public transportation. However, it
must be noted that the dimension empathy had a total of two questions and this may have
contributed to it having the lowest score. In this regard, SERVQUAL was effective in
measuring service quality.
Assurance and responsiveness equally had large Gap-5: 32.14% and 27.14% as well as ranked
third and second in terms of service quality respectively at industry level, indicating that some
of the complaints came from this area and that these areas of the service process do not have a
high performance as expected by the customers. As mentioned before, assurance and
responsiveness also deals with employees which according to parasuraman et al (1994)
describes the way employees instil confidence in customers, employees courteousness,
employees answer customers‟ questions as well as help them, keep customers informed and
offer prompt services, clearly indicating the vital role of the employees. For example, in the
complaints received by the management (table 3), the complaint bus did not stop was amongst
the 60% of the complaints received by management indicating that drivers are not conscious
in performing their duties. At industry level, Gap-5 of the assurance dimension was smaller
(31.49%) for B2 and in terms of satisfaction ranked fourth within the assurance dimension of
B2. In B1 Gap-5 was larger (32.86%) and ranked third within the assurance dimension of B1.
This implies that passengers are more satisfied with the level of assurance of the services of
B2 than of B1. Therefore, it is more likely that more complaints will come from the items of
assurance dimension of B1 than from B2. Gap-5 of the responsiveness dimension was smaller
(25.71%) for B1 and in terms of satisfaction ranked first within the responsiveness dimension
of B1. In B2 Gap-5 was larger (28.57%) and ranked second within the responsiveness
dimension of B2. This implies that passengers are more satisfied with the degree of
responsiveness of the services of B1 than of business level B2. Therefore, it is more likely
that more complaints will come from the items of responsiveness dimension of B2 buses than
from B1 buses. It must also be noted that the dimension responsiveness had a total of 8
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questions (items) in our questionnaire and this may have contributed to it having a higher
ranking than assurance and empathy.
Tangible had a Gap-5 of 32.14% and ranked third at industry level in terms of service quality.
Tangible dimension which according to Parasuraman et al (2004) describes modern
equipments used in the service as well as visually appealing facilities associated with the
service also had complaints coming from this area. For example, in the complaints received
by management (table 3), 6% was due to vandalised seats and 0.8% due to techniques like
home page and electronic signs. Complaints from our survey (table 2) revealed that 7.84%
was due to technical break down of the card machine and this was fifth highest complaints in
our survey. Consequently it is evident to see why Gap-5 of the question measuring the service
quality of the effectiveness of this machine was one of the largest (37.2%) ranking nineteenth
out of twenty two in terms of service quality. In this regard, we agree that SERVQUAL is
effective in measuring service quality in public transportation. Gap-5 of the tangible
dimension was smaller (30%) for B2 and in terms of satisfaction ranked fourth. In B1 Gap-5
was larger (34.29%) and ranked third. This implies that passengers are more satisfied with the
quality of tangibles of B2 than of B1. Therefore, it is more likely that more complaints will
come from the items of tangible dimension of B1 than from B2.
Reliability dimension had a Gap-5 of 26.79% and ranked first in terms service quality at
industry level. Reliability dimension which according to Parasuraman et al (2004) describes
the ability of the service provider to provide services at the promised time and as promised,
had complaints coming from this area. For example, 12% of the complaints received by
management were due to lack of punctuality and it was the second highest, travel guarantee
1% while in our survey, 33.33% of complaints were due to lack of punctuality and it was the
highest amount of complaints made by respondents. However, it must be noted that this
dimension ranked first in terms of quality because although respondents agreed that bus
services were late, they believed that the bus services were provided as expected and rated
this as 75.5% in terms of service quality and this boosted the performance and ranking of this
dimension. Gap-5 of the reliability dimension was smaller (26.43%) for B2 buses and in terms
of satisfaction ranked first within the reliability dimension of B2. In B1 Gap-5 was larger
(27.14%) and ranked second within the reliability dimension of B1. This implies that
passengers are more satisfied with the level of reliability of the services of B2 than of B1.
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Therefore, it is more likely that more complaints will come from the items of reliability
dimension of B1 than from B2.
4.3.1.2 The ranking of the questions in section 1 at industry level and the comparison
with the complaints results
We ranked the questions in section 1 from highest to lowest based on their service
quality/customer satisfaction. This implies that questions with large Gap-5 will be at the end
of the ranking while those with smaller Gap-5 at the beginning. In order to give more meaning
to the ranking, as mentioned in the analysis section, we determined the mean (average) and
the median of Gap-5 of all questions in the section 1 of the questionnaire in order to identify
the service areas with performance below and above the mean and median so that we can
compare them with the complaints received (table 1 and 2) in order to assess the effectiveness
of SERVQUAL in „capturing‟ and „diagnosing‟ the relevant deficiencies and strengths of the
service process. The mean (average) of Gap-5 at industry level is 29.8% (654.1%/22) and the
median is 28.4% (28.1%+28.8%/2). This implies that questions whose Gap-5 is larger than
29.8% will have service performances below the average and vice versa. Questions above the
median will indicate those areas of the service process above the mid-point performance and
vice versa. Based on this ranking, it would be easier to determine the amount of questions per
dimension below or above the mean and median and then compare them with the complaints.
All dimensions had a question whose Gap-5 was larger than the median and all except
reliability had questions whose Gap-5 was larger than the mean (average). In comparison with
the median, reliability had 1(out of 4 questions in questionnaire) question whose Gap-5 was
larger than the median, responsiveness had 4 (out of 8), assurance had 3 (out of 4), tangible 2
(out of 4) and empathy 2 (out of 2). In comparison with the mean (average), responsiveness
had 3 (out of 8), assurance 3 (out of 4), tangible 2 (out of 4) and empathy 2 (out of 2).
Therefore, based on the mean (average) responsiveness, assurance, tangible and empathy had
more questions whose Gap-5 were larger than the average, thus indicating that these areas of
the service process required greater performance from the employees. In addition, the
employees were expected by the customers to have performed better in order to increase
service quality.
Below we shall provide detailed analysis of the questions from this dimension and compare
them with complaints on both tables in section 2. With regards to the median, we shall
compare with the complaint tables 1 and 2, the question in reliability Q2 and Q6
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responsiveness whose Gap-5 was larger than the median but smaller than the mean. They are
as follows:-
Q4 responsiveness ranked 13th
at industry level and Gap-5 was 29.3% (0.5% >mean
and 0.9%>median) indicating that the performance of the in demonstrating their
willingness to help passengers whenever they had a problem was not good enough.
Evidence of this is clear in the complaint table 3 from the management where 60% of
complaints were related to areas directly involving the employees. In our survey, rude
drivers which triggered 13.73% of complaints could be related to this question because
if passengers perceive them as rude, they are more likely to believe that drivers who
are frontline employees are not willing to help them.
Q2 assurance ranked 14th
at industry level and Gap-5 was 30.5% (0.7%>mean and
2.1>median) indicating that the customers perceive the drivers as not careful in
performing their duties. In the complaint table 3 received by management traces of
complaints from this area was amongst the 60% complaints received by the
management of SWEBUS and this ranked first. This is evidence that such service
failures are caused by employees.
Q3 assurance ranked 15th
at industry level and Gap-5 was 31.7% (1.9%>mean and
3.3%>median) indicating that passengers have not often had their problems solved by
employees. Complaints from this service area can be seen in the table 3 of complaints
received by management where 60% of their total complaint included complaints due
to inadequate services from employees, thus including this measure (question).
Q3 tangible ranked 16th
at industry level and Gap-5 was 34.1% (4.3%>mean and
5.7%>median) indicating that respondents did not find the bus stops comfortable
enough. For example, 3% of the complaints (table 3) received by management were
due to the fact that the bus stops were not suitable for wheel chairs, thus indicating
customers‟ frustrations with this service.
Q1 empathy ranked 17th
at industry level and Gap-5 was 34.4% (4.6%>mean and
6%>median) indicating that respondents believe that employees do not do enough to
assist handicap passengers, children and seniors. For example, in our survey 6.87% of
complaints was due to lack of driver‟s assistance, 4.5% of complaints received by
management was related to issues relating to seniors such as why are they not
pensioner discounts, thus reflecting the concern for seniors.
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Q7 responsiveness ranked 18th
at industry level and Gap-5 was 34.8% (5%>mean and
6.4%>median) indicating that respondents are not that satisfied with the closing time
of bus services. For example, this is indicated in the complaints on services
represented in the 60% complaints (table 3) received by management. In addition,
0.8% a complaint was also made on travel guarantees especially late hours indicating
that some passengers are not satisfied with the fact that it is not possible to use the bus
services very late at night.
Q2 tangible ranked 19th
at industry level and Gap-5 was 37.2% (7.4%>mean and
8.8%>median) indicating that respondents often have problems with the card
punching machines. For example the percentage of complaints corresponding to this
service area in our survey was 7.8% and ranked fifth in relation to the total number of
complaints (table 2) in our survey.
Q2 empathy ranked 20th
at industry level and Gap-5 was 37.4% (7.6%>mean and
9%>median) indicating that respondents believe that employees do not do enough to
prevent disrespectful passengers from disturbing them. For example, evidence of this
can be seen in the numerous complaints (table 2) in our survey revealing that
numerous complaints were due to disturbance from other passengers. 8.82%
complaints in our survey were due to the disturbance of drunken passengers, 7.84%
due to noisy passengers and in the complaints received by management 6% included
due to loud noise, thus revealing the disturbance by other passengers. This is the
reason why this question ranked very low, thus revealing the effectiveness of
SERVQUAL in measuring service quality.
Q3 responsiveness ranked 21st at industry level and Gap-5 was 37.8% (8%>mean and
9.4% median) indicating that respondents are unhappy with the fact that other
passengers buy tickets in the bus because it delays their journey. Complaints from this
process would be found in the 60% complaints (table 3) received by management
specifically under service. It must be noted that this complaint was the highest
received by management.
Q4 assurance ranked 22nd
at industry level and Gap-5 was 42.8% (13%>mean and
14.4% median) indicating that employees do not always refer them to someone else or
someone senior to solve their problems thus evidence that employees do not assist
them in getting their problems solved. In our survey (table 2), 13.73% of the
complaints were caused by the fact that drivers were rude, thus indicating that
passengers could not have been referred to someone senior for help. In addition, most
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respondents perceived the employees as unwilling to help them and therefore will not
refer them to someone senior for help. 60% of complaints (table 3) were due to
employees which also comprises this question.
The Gap-5 of two questions was larger than that of the median but lower than the mean. The
questions and complaint areas are as follows:-
Q2 reliability ranked 11th
and Gap-5 was 28.8% (0.4%>median) indicating that
respondents believe that employees are not quite good at handling customers‟
problems. Complaints relating to this question would be found in the 60% complaints
(table 3) received by management which was directly related to employees handling of
customers related issues in the service.
Q6 responsiveness ranked 12th
and Gap-5 was 29% (0.6%>median) indicating that
respondents were not quite satisfied with the bus intervals. Complaints relating to this
question would be found in traffic planning which made up 12% of the total number of
complaints (table 3) received by management as well as ranked second.
To conclude, more than 60% of the complaints in both tables came from areas of the service
process that involved employees. For example, in table 2, 33.33% of unfavourable service
experience was due to lack of punctuality, 13.73% due to the rudeness of the drivers, 9.8%
because bus did not stop, 6.8% due to lack of drivers‟ assistance and 0.98% due to eviction of
a passenger from the bus. This makes a total of 64.64% of problems coming from areas of the
service process in which a failure can be directly associated to the employees. In the table 3 of
complaints received by management, complaints made by customers were 60% due to
employees (driving too fast, service, did not stop), 12% due to lack of punctuality - (too late,
too early) and 1% due to no travel guarantee - (very late). This makes a total of 72.8% of
problems coming from areas of the service process in which a failure can be directly
associated to an employee (frontline employees).This is evident because majority of the
questions whose Gap5 were larger than the mean and the median were principally from
dimensions like empathy, responsiveness and assurance that required higher performance on
the part of the employees when offering the service. In addition, the dimension reliability
whose questions relatively performed better except Q2 actually measured employees‟
effectiveness in handling customers‟ problems. In this regard we concluded that SERVQUAL
was effective in measuring service quality in public transportation.
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4.3.1.3 The effectiveness of SERVQUAL in measuring service quality while taking into
consideration the impact of differences in service characteristics
Another aspect of SERVQUAL instrument that reveals its effectiveness in measuring service
quality is that it is able to show how service quality differed from one business level to
another due to differences in their service characteristics. The questions below are some
examples:-
Travel distance and punctuality: Q3 reliability measured the punctuality of B1 and
B2 and due to the fact that B2 buses travel long distances, they are often less punctual
than B1 buses which travel relatively short distances within the city. In this regard
SERVQUAL dimension was able to bring out the differences (4.28%) in the service
performance or perceived service quality in terms of punctuality of both B1 (75.57%)
and B2 (71.29%). It was logical that B2 buses will be less punctual because delays for
a bus travelling long distances requires more time to catch up, hence is more likely to
be late. In addition, there are speed limits on the highways.
Bookings (buying of tickets): Due to the fact that most passengers of B2 make their
travel reservations and bookings or purchase tickets online, it is evident that service
performance or perceived service quality relating to booking or purchase of tickets
would be more efficient and reliable in B2 than B1. Evidence of this was captured by
SERVQUAL in several questions which measured service processes whose
performance is influenced by the nature of bookings. For example, Q4 reliability
measured the reliability of bookings in B1 and B2. B2 was more reliable than B1
(service performance of B2: 75.43% and B1: 71.43%, difference: 4%). Q3
responsiveness measured the extent to which passengers believe that purchasing
tickets on the bus delayed their journey. It is logical that the delay in B2 was less
because most passengers buy their tickets online compared to B1 passengers who buy
their tickets in the bus thus making the driver to sell more tickets thereby delaying the
journey. SERVQUAL was able to capture the impact of the difference in this service
process (Service performance B2: 63.71% and B1: 60.71%, difference: 3%).
Frequency of usage: Due to the fact that the frequency of usage of B1 is higher than
B2, B1 buses has more bus stops than B2, B1 travels regularly thus having less time
interval between each bus than in B2, and B1 travels to more destination within the
city than B2 does to other cities. For example Q5 responsiveness was higher in B1
than in B2 in terms of service performance indicating that consumers were more
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satisfied with the number of bus stops for B1 than B2. This is because B1 buses travel
within the city and are frequently used than B2 buses. In this regard, due to economic
reasons and less frequent usage, B2 buses only stop in important areas of the city
where they are more likely to pick up more passengers. The service performance and
difference of both business levels were (B1: 78.86% and B2: 74.14%, difference:
4.72%). In Q6 responsiveness service performance was higher in B1 (77.57%) than B2
(64.29%) indicating that consumers are more satisfied with the bus intervals of B1
than B2. Due to the fact that fewer passengers travel between cities on daily basis than
within the city, the travel intervals in B2 are 30 to 60 minutes on average whereas in
B1 which has a higher frequency of usage, travel intervals are 10 minutes on average.
In this regard SERVQUAL was able to measure the difference (13.28%) in service
quality thus revealing the difference in service quality or satisfaction. In Q8
responsiveness, respondents were more satisfied with the bus destinations of B1
(79.57%) than B2 (77%). They complained that B1 buses travel to more destinations
than B2 buses do between cities. Due to the lower frequency of usage and also
economic reasons, it is logical that B2 buses will travel mostly to profitable
destinations than less profitable than destinations where economic loss will be
incurred due to low frequency of usage. This difference in service performance in
terms of this question was 2.57%.
Price differences: It is logical that when the price of a service is higher, the comfort,
beauty of the service scape and the design of the tickets should be better than those of
a service whereby customers pay less. This is the reasons why B2 performed better in
these service areas than B1. For example, the service performance of Q1, Q3 and Q4
tangible were better in B2 than B1. In Q1 tangible, respondents agreed that B2 buses
were more comfortable and pleasant for travels and this is partly due to the fact that
the buses travel long distances and so all passengers have to be seated. Moreover,
passengers pay more for the tickets and as a result expect and receive a better service.
SERVQUAL was able to measure the difference in the service quality (B2:75.43%
and B1: 68.86%, difference: 6.57%). In Q3 tangible, respondents agreed that the bus
stops of B2 are more comfortable than B1 which was true after our investigation. Due
to the fact that the departure intervals for these buses are greater, the bus stops are well
built with comfortable waiting rooms for the passengers to wait for the bus. In
addition, these passengers pay more for their tickets and so should receive better
services. The difference in service performance in this service area was (B2: 66.29%
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and B1: 65.43%, difference: 0.86%). The difference is not quite much because some
bust stops are shared between B1 and B2 and so this also boosts the performance of
B1. In this regard SERVQUAL has been able to „capture‟ the differences in service
quality with regard to the situation on the ground (reality). In Q4 tangible, respondents
preferred the design of the tickets of B2 than B1. This is evident because the tickets of
B2 buses have a nicer design with a more qualitative paper material. These tickets are
more expensive an as a result should be more appealing. The difference in service
quality for this domain was (B2: 74.43% and B1: 69.29%, difference: 5.14%).
To conclude this section, it is worth mentioning that SERVQUAL instrument has been
effective in measuring service quality in public transportation by revealing the impact of
service characteristics on service quality.
4.3.2 Does the use of technology increase customer satisfaction in public transportation?
In this section, we would provide evidence to prove that an increase in the use of technology
in the service process in public transportation increases customer satisfaction. We would
prove this by analysing the ranking of the questions in section 1 and also by comparing the
impact of the use of technology on the service performance of B1 and B2.
4.3.2.1 Ranking of the questions relating to technology at industry level
It is worth noting that the service performance hence customer satisfaction of most of the
questions measuring the impact of the use of technology in the service process ranked above
the mean and median indicating that their performances were well above the average in
relation to other questions measuring service performance in other service areas. The rankings
were as follows:-
Q1 responsiveness ranked 1st at industry level and Gap-5 was 20.6% (9.2%<mean and
7.8%<median) indicating that respondents find it easier to understand the timetable of B2
than B1. It must be noted that most passengers of B2 buy their tickets online and as a
result they are able to look at the timetable online. Online timetables are for more detailed
and informative than those at the bus stations. In this regard, passengers are able to plan
their trip more effectively. On the contrary, the passengers of B1 buy the tickets from the
driver in the bus and as a result often look at the timetable at the bus stops. Often these
timetables are complicated at have less information to explain details. Moreover, most
passengers who look at this are usually in a hurry and as a result are less focus. It must be
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also noted that some of the timetable of the B1 bus stations which is also used by some B2
buses have electronic timetables which indicate the time interval of the next arriving bus
of the given route. This could also be a reason for the relatively small difference in
customer satisfaction. Although this question ranked 1st at industry level, there was a
difference in the service performance between B2 and B1 (B2:79.86% and B1:79%,
difference: 0.86%). This is evidence that the increase use of technology (online booking
and timetable) by B2 customers increased customer satisfaction by 0.86% over those of
B1.
Q1 assurance ranked 2nd
at industry level and Gap-5 was 21.5% (8.3<mean and 6.9%
<median) indicating that generally speaking respondents feel safe using the bus charge
cards. This question measures the attitude of customers when using self service
technology to buy tickets. Some customers feel that technology is not usually safe and
reliable when buying tickets. However, this was not the case in our survey because as
mentioned before, this service area (question) had the second highest service performance,
hence customer satisfaction than others indicating that technology increases customer
satisfaction. Respondents agreed that they felt safer using the bus charge cards in B1 than
in B2 (B1:79.86% and B2:77%, difference: 2.86%). This is because of the following:-
1. Price of tickets and amount of money pro transaction: The prices of tickets in B1 are
cheaper than in B2 and as a result customers in B1 have to feel their cards with less
money compared to B2 in order to be able to use them in B1 buses. Moreover, due to the
fact that the prices of tickets are cheep, less money is involved pro transaction (buying a
ticket or paying for a trip using a charge card) thus making the users less scared. On the
contrary, each ticket in the B2 buses cause 3 times on average more than those of B1
buses, thus making the transaction in B2 buses more riskier because more money can be
lost in case of a failure in the technology.
2. Booking online and frequency of usage: Most of the customers or users of B2 buses
purchase their tickets online and as a result do not have to use the bus charge cards. On the
contrary, more customers of the B1 buses use the charge cards and as a result are more
familiar with it, thus confirming that these cards really increase customer satisfaction.
Q4 reliability ranked 8th
at industry level and Gap-5 was 26.6% (3.2<mean and
1.8<median) indicating that respondents generally agree that bus reservations and
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bookings are reliable and therefore increase customer satisfaction. The service
performance (service quality) of both B1 and B2 were high but that of B2 was higher than
B1 (B2:75.43% and B1:71.43%, difference: 4%). This is because majority of the
customers of B2 buy their tickets online and in this regard do their bookings and
reservations online. Therefore, increase use of technology (booking and reservations
online) increases reliability, hence customer satisfaction. In addition it must be noted that
an increase usage of technology (booking and reserving tickets online) increased customer
satisfaction in other areas of the service especially for B2 over B1 as follows:-
1. Employee performance and interaction with customers: Due to the fact that
customers make use of the internet to buy their tickets, we noticed that the positive
impact on customer satisfaction in B2 was greater than in B1 because more B2
customers use this technology than B1 customers. For example, customer satisfaction
was higher in B2 than B1 for the following questions (Q2 reliability- B2: 73.14% and
B1: 69.29% and difference: 3.85%, Q4 responsiveness- B2: 71.14% and B1: 70.29% and
difference: 0.85%, Q3 assurance- B2: 69.29% and B1: 67.29% and difference: 2% and
Q1 empathy- B2: 65.14% and B1:60% and difference: 5.14%) because customers of B2
buy their tickets online and as a result the drivers (frontline employees) have more time
to listen and solve customers‟ problems, willing to help whenever customers have a
problem and assist handicap passengers, children and seniors instead of selling tickets to
passengers. So SST has increased employees‟ performance in serving customers which
has consequently boosted customer satisfaction. In Q2 reliability, Q4 responsiveness,
Q3, the service performance was higher in B2 (73.14%) than in B1(69.29%) thus having
a performance difference of 3.85% because most B2 passengers buy tickets online and
as a result the bus drivers have less work selling tickets in the bus. Consequently, they
are more focus on handling customers‟ problems specifically regarding their
destinations. Moreover, these drivers hold little or no cash on board because most
passengers buy tickets online. As a result, they are more confident to interact with the
passengers. On the contrary, B1 drivers are busier selling tickets on the bus and cannot
focus on handling or solving passengers‟ problems. Moreover, payments from the sale of
their tickets make them accumulate a lot of cash on board which makes them be at risk
of being robbed. This fear makes them less willing to interact with passengers, hence
cannot solve their problems or assist those passengers who need help like seniors,
children and handicap passengers.
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Q2: reliability, B1/B2 (69.29%/73.14%= 0.95%:1%), when service performance
(service quality) increases in B2 by 1%, in B1 it increases by 0.95% for the same
service process. This is because the increase in the use of technology (SST) to buy
tickets online by B2 passengers increases the ability of frontline employees like drivers
in handling customers‟ problems. Technology makes it possible for the drivers to be
relieved from the burden of selling tickets and can focus on handling customers‟
problems. Based on the difference in service performance between B1 and B2 of
3.85%, a minimum increase of an average of 4.1% (3.85%/0.95%) in the number of
passengers of B1 using technology like booking online would be required in order to
„bridge‟ the gap of service performance between B1 and B2.
Q4: responsiveness, B1/B2 (70.29%/71.14%=0.99%:1%), when service performance
increases in B2 by 1%, in B1 it increases by 0.99% for the same service process. This
is because as more passengers of B2 use technology in buying tickets, the service
performance of drivers in demonstrating willingness to help passengers increases. The
relieve of the burden to sell tickets makes the drivers to be more willing to help
passengers who have problems. Based on the difference in service performance
between B1 and B2 of 0.99%, a minimum increase of an average of 0.86%
(0.85%/0.99%) in the number of passengers of B1 using technology like booking
online would be required in order to „bridge‟ the gap of service performance between
B1 and B2.
Q3: assurance, B1/B2 (67.29%/69.29%=0.97%:1), when service performance increases
in B2 by 1%, in B1 it increases by 0.97% for the same service process. As more
passengers of B2 use technology in buying tickets, the service performance of
employees in finding a solution to the problems of passengers will increases more.
They are able to focus on customer care instead of selling tickets and at the same time
try to solve the problems of passengers like in the case of B1. Based on the difference
in service performance between B1 and B2 of 2%, a minimum increase of an average
of 2.1% (2%/0.97%) in the number of passengers of B1 using technology like booking
online would be required in order to „bridge‟ the gap of service performance between
B1 and B2.
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Q1 empathy: B1/B2 (60%/65.14%=0.92%:1), when service performance increases in
B2 by 1%, in B1 it increases by 0.92% for the same service process. As more
passengers of B2 use technology (SST) in buying tickets, service performance of
employees in assisting handicap passengers, children and seniors will increase. Based
on the difference in service performance between B1 and B2 of 5.14%, a minimum
increase of an average of 5.6% (5.14%/0.92%) in the number of passengers of B1 using
technology like booking online would be required in order to „bridge‟ the gap of
service performance between B1 and B2.
To conclude this section, the impact of technology (Self Service Technology) will increase
customer satisfaction through boosting employees‟ performance. This can only be guaranteed
if the customers increase the usage of self service technology thus reducing the work load on
employees so that employees can concentrate on offering counselling or assistance to
passengers by answering questions regarding their trip and destinations or assist handicap
passengers enter the bus.
2. Improved service processes: Some service processes have been improved significantly
due to the increase in the use of technology. For example, some passengers prefer to buy
their tickets in the bus and consequently the process of collecting money and giving the
balance as well as the ticket takes time which usually delays the departure of the bus.
This annoys other passengers in the bus who want to get to their destination on time. The
use of technology has made it possible for passengers to buy their tickets online and as a
result just walk into the bus faster, thus reducing the time wasted in buying a ticket. For
example in Q3 responsiveness service performance was higher in B2 than B1
(B2:63.71% and B1:60.71%, difference: 3%) indicating that passengers in B1 agree that
buying tickets in the bus by other passengers delays their journey. This is because most
passengers in B2 buy their tickets online and therefore do not have to buy a ticket in the
bus, thus increasing the performance and efficiency of this service process. It can be
clearly seen that the difference in service performance between B1 and B2 was quite
wide (3%) indicating the impact of technology in increasing customer satisfaction in this
service area. Q3 responsiveness: B1/B2 (60.71%/63.71%=0.95%:1), when service
performance in B2 increases by 1%, in B1 it increases by 0.95% for the same service
process. As more passengers of B2 use technology (SST) in buying tickets, service
performance and customer satisfaction of other passengers who may not be buying
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tickets in the bus increases more than in B1. Based on the difference in service
performance between B1 and B2 of 3%, a minimum increase of an average of 3.2%
(3%/0.95%) in the number of passengers of B1 using technology like booking and
buying tickets online would be required in order to „bridge‟ the gap of service
performance (service quality) between B1 and B2.
Although technology increases customer satisfaction, this may turn around if the technology
is not reliable or constantly breaks down. In Q2 tangible, service performance at industry
level was 62.8% and ranked 19th
out of 22 questions, thus indicating a poor performance. This
is because the card punching machines often have problems, thus are not reliable. The
manager of customer complaints in SWEBUS Mr Peter Enquist told us in the interview we
had with him that the machines were old and are currently being replaced with new and more
efficient ones. However, the breakdowns were more frequent in B1 than in B2 (B2: 63.57%
and B1:61.86%, difference: 1.71%). This is because most of the passengers in B1 use the card
punching machines in the bus while most B2 passengers buy tickets online and so avoid or do
not have to use the card punching machines in the bus.
5 Discussion
The results of our survey has proven that SERVQUAL instrument is effective in measuring
service quality and indicating that technology increases customer satisfaction in public
transportation.
5.1 What are the implications of the results and what can we learn from this
research?
According to Bardy and Cronin Jr. (2001), Parasuraman et al. (1988) outcome attributes such
as reliability are more important determinants of service quality than process attributes such
as responsiveness, empathy and assurance. In this regard, our survey was able to support this
assertion because the overall service performance (service quality) of business level 2 was
higher and was 69.86% and Gap-5 was 30.14% and of business level 1 was lower and was
68.57% and Gap-5 was 31.43%. Reliability dimension had a higher service quality in B2
(73.57%) than in B1 (72.86%), thus contributing to a higher overall service quality for B2. In
this regard SERVQUAL instrument has been effective in measuring service quality in the
public transportation industry.
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Pullen (1993, p. 261) defined service quality for local public transport industry as a concept
that involves “those attributes of the service which affect its fitness for purpose” and “the
attributes, and indeed fitness for purpose, require detailed definition in relation to local
objectives and circumstances.” This implied that customers could evaluate service quality in
public transportation differently and based on local circumstances and objectives. The
differences in the results of B1 and B2 clearly indicated that different circumstances in the
service characteristics of B1 and B2 contributed to the differences in perceived service
quality. For example, due to the fact that B2 buses travelled long distances, the duration of
lateness was wider for B2 (10-15minutes on average) buses than B1 (5-10minutes on average)
buses thus making service quality for punctuality to be lower in B2 than in B1 (B1:75.57%
and B2: 71.29%, difference: 4.28%). This reflects the high diagnostic value of SERVQUAL
in measuring service quality because it is able to capture as well as bring out the broad areas
within the entire service that are not doing well while taking into consideration the
circumstances such as service characteristics by showing how it may boost or hinder high
service quality.
The predictive power of SERVQUAL was also reflected in our research. For example, based
on our result, we found that employees‟ performance greatly decreased perceived service
quality. Dimensions measuring employees‟ performance in the service process such as
empathy, assurance and responsiveness had several of their questions ranking low behind the
industry median and mean. When compared to the complaints received from companies, a
significant amount of the complaints came from these areas, thus reflecting the predictive
strength of SERVQUAL. For example, as evidence of the predictive strength of
SERVQUAL, in the airline industry, Young et al. (1994) added the industry-based measures
to SERVQUAL measures, and according to his research, the predictive power to satisfaction
was significantly increased. The results of our survey reveal that if employees‟ performance
can be improved by increasing the use of technology in the service process, customer
satisfaction will be increased.B2 had a higher service quality than B1 partly because the
customers have greater access to technology and they make use of it. This is because service
quality is usually regarded as the customer‟s impression of the relative inferiority/superiority
of a service provider and its services (Bitner and Hubert, 1994; Tsoukatos and Rand, 2006) to
its competing alternative, and is often considered similar to the customer‟s overall attitude
towards the company (Parasuraman et al., 1988). It has therefore been popular to
conceptualize and establish measures for service quality such as SERVQUAL and explain its
73
relation to the overall performance of companies and organizations (Chau and Ngai, n.d.). In
this regard, it was evident that due to the fact that B2 performed better in reliability dimension
as well as the process variables relating to employee performance, the overall service quality
of B2 was better than B1.
In the domain of technology, the results revealed that technology, especially self service
technology actually increases service quality. Our results revealed that customers actually
embraced technology because of the benefits associated with its use including the overall
improvement of service performance and quality of the service being consumed. For example,
according to Bateson (1985), Globerson and Maggard (1991), Meuter et al. (2000), customers
believe to save money while using SSTs. In our report this was evident because we noticed
that due to the fact that the prices of B2 tickets are more expensive than B1 tickets, more
passengers of B2 bought their tickets online because of the huge discounts based on the fact
that the tickets are expensive and so the discount margin is wider meanwhile in B1 where the
tickets are very cheap, more passengers bought their tickets online. According to (Globerson
and Maggard (1991), Meuter et al.( 2000 ) convenience with regards to the fact that services
could be accessible anytime and anywhere motivated customers to use technology and this
actually increased their satisfaction and perceived service quality. Technology like buying
tickets online saves time an ensures speedy and prompt service delivery just like Globerson
and Maggard (1991), Meuter et al. (2000), Rockbridge, Dabholkar (1996) and Davis (1989)
postulated that the aspect of time and ease of usage of the technology was vital in increasing
the ability of that technology (SST) to increase service quality. In our survey customers who
bought their tickets online said they did so because it was convenient and easy to use and they
could buy tickets anytime at their convenience. Moreover, a lot of them have access to
internet which makes the process easier and less expensive. This has therefore increased
perceived service quality. Evidence of this was in Q4 reliability which ranked 8th
with
perceived service quality being 73.4% at industry level indicating that customers find the bus
reservations and bookings reliable. In this regard, the results of technology related questions
in our survey have proven that technology is a service quality driver aiding employees
perform their job more effectively and efficiently, saves time by ensuring quick and prompt
services. Unprompted action or solution to the customer‟s requests had been proven to be one
of the main sources of dissatisfaction with interpersonal service encounters (Bitner, Booms,
and Tetreault 1990). In our survey, the use of technology (SST) had a positive multiplier
effect with regard to increased service quality in other areas of the broad service process. This
74
is because passengers were able to co-produce by buying tickets themselves, thus enabling the
employees to focus on other service functions such as interacting more with passengers
thereby creating more value from the customers‟ perspective. This supports the views of
Normann and Ramirez (1993, p.69) who argued that “the key to creating value is to co-
produce offerings that mobilize customers.” In addition, “the customer is a co-producer of
service. Marketing is a process of doing things in interaction with the customer. The customer
is primarily an operant resource, only functioning occasionally as an operand resource”
(Lusch and Vargo, 2004, p.7). By making it possible for more passengers to act as operant
resources in B2, service quality in the questions below were higher than in B1. For example,
due to the fact that a greater percentage of B2 passengers use technology to buy tickets
(online purchase), the service quality of B2 in the following service areas were higher than in
B1 (Q1 responsiveness- B2: 79.86% and B1: 79% and difference: 0.86%, Q2 reliability- B2:
73.14% and B1: 69.29% and difference: 3.85%, Q4 responsiveness- B2: 71.14% and B1:
70.29% and difference: 0.85%, Q3 assurance- B2: 69.29% and B1: 67.29% and difference:
2% and Q1 empathy- B2: 65.14% and B1:60% and difference: 5.14%). Therefore, co-
production through the aid of technology (SST) actually increases service performance in
other broad service areas, hence boosting overall service quality.
However, it must be noted that technology is sometimes not always reliable and accepted by
all in the same way. This is because despite the global expansion of technology into the daily
life of most people, there might still be a fear and discomfort in dealing with new technology
resulting in frustration (Lin and Hsieh, 2006; Parasuraman, 2000). Studies have also shown
that some people demonstrate a certain degree of technophobia (Meuter et al., 2003) or are
technology pessimists (Edison and Geissler, 2003; Modahl, 1999). Technology cannot be
accepted if consumers are not ready. For example, another study show that while nearly 80%
of bank customers use ATM self-service with a purpose to withdraw money (Curran and
Meuter, 2005), only 10% of customers use the same technology to deposit money into their
accounts (Bruce, 2003). In our survey the some results revealed that there was a difference in
the attitude of customers using the charge cards to buy tickets. This behavioral difference is
explained by the fact that customers do not think that technology is very reliable or
trustworthy. At industry level Q1 assurance ranked 2nd
with a service performance (service
quality) of 78.5%; Gap-5:21.5%. Service quality was higher in B1 than in B2 (B1: 79.86%
and B2: 77%, difference: 2.86%) indicating that although passengers feel safe using the bus
charge cards in both B1 and B2, passengers of B2 felt less safe or had less confidence in the
75
technology. Based on feedback from the passengers, B2 tickets are more expensive and
require that more money be stored in these cards. This increases the risk of losing more
money in the event whereby there is a problem with the system that records the amount of
money in the card and also the card punching machine which deducts the fare per trip. On the
contrary, B1 customers load money on their cards as well as use them regularly because the
tickets in B1 are cheaper and as a result they do not have to load their cards with much
money. In addition, due to the fact that the prices of the tickets are lower in B1, the amount of
money to be lost if the system breaks down is lower, hence perceived risk is also low thus
encouraging B1 passengers to use this technology more frequently than B2 passengers. This
leads us to question Q2 tangible which ranked 19th
at industry level having a service quality of
62.8%. In B1 service quality was lower than in B2 (B2: 63.57% and B1:61.86%, difference:
1.71%) indicating that there are often problems with the card punching machine in B1 than in
B2. This is because more customers of B1 use the card punching machines and as a result
they break down regularly meanwhile in B2 most passengers buy their tickets online and
therefore do not have to use the card punching machine. Therefore, if technology is reliable as
more people use it like in the case of B1, the perceived service quality will be rated low by
users.
5.2 Managerial implications
This section offers proposals on what management should do in response to the results of this
survey and the impact on service quality.
5.1.1 SERVQUAL
The results obtained from SERVQUAL instrument in our survey revealed several information
that the management of public transportation companies can use in order to measure service
quality as well as improve it. They are as follows:-
Importance of reliability dimension: The reliability dimension of SERVQUAL
instrument has a positive impact on the overall service quality in public transportation.
In this regard management should ensure that the service performance (service
quality) of those service areas that impact reliability should meet customers‟
expectation because as Bardy and Cronin Jr. (2001), Parasuraman et al. (1988)
outcome attribute like reliability is a very important determinant of service quality.
This was reflected in B2 over B1.
Predictive capabilities: The results of this survey have revealed that management can
use SERVQUAL as a predictive instrument in order to increase their ability to satisfy
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customers by increasing service quality. The areas of the service process which
perform poorly can be known earlier and measures can be taken to improve them. For
example, many complaints received in our survey and also by the management of
SWEBUS had larger Gap-5 than the mean and median. Moreover, research has proven
that this can be possible. As mentioned before, in the airline industry, Young et al.
(1994) added the industry-based measures to SERVQUAL measures, and according to
his research, the predictive power to satisfaction was significantly increased. In
addition, according to Baumann et al, (2006) SERVQUAL dimensions can provide
insights which can be used to predict future behavioural intensions of customers
towards a company. The importance of customers‟ behavioural intentions to predict
customer retention has been recognised by many researchers (Godin et al., 2004;
Luarn and Lin, 2005; Norman and Smith, 1995; Patterson, 2004). This can have great
impact on a company‟s growth.
High diagnostic value of SERVQUAL and service characteristics: The high
diagnostic value of SERVQUAL can provide clues to management to understand how
the service characteristics of their industry can impact service quality. Necessary
action can be taken to limit the negative impact of these characteristics on overall
service quality.
The role of employees: SERVQUAL dimensions can reveal to management how the
role of employees impact customer satisfaction and overall service quality. For
example, in our survey the areas of the service process whereby the failures could be
directly be associated with an employee scored some of the lowest points in perceived
service performance or customer satisfaction. This is an indication that employees are
partly responsible for the low service quality in public transportation.
5.1.2 Technology
The results in our survey revealed that technology increases service performance and
customer satisfaction. Based on this, management can use technology to increase overall
service quality and customer satisfaction because technology can do the following in public
transportation:-
Improve service process: This can be done by ensuring that technology reduces time
needed to perform a service which would have taken much longer for an employee to
perform.
77
Cost reduction through co-production: By enabling customers do the service
themselves, managers should make sure that the cost reductions achieved through this
process should be passed on to customers through lower prices in the form of
discounts. This will not only motivate customers to use that technology, it would
increase perceived service quality and this will ultimately increase customer
satisfaction. For example, more customers of B2 buy tickets online because the
discount margin is wider due to the fact that the tickets are more expensive in
comparison to B1. This has led to the improvement in service performance in other
areas of B2 over B1.
Improve employees’ performance: As our survey reveals, employees are a vital
determinant of service quality and customer satisfaction in public transportation.
Therefore, technology should be used in such a way that it assist employees to be
more effective and efficient in performing their tasks. For example, in B2 the
increased usage of online tickets relieved the employees of the burden of selling
tickets in the bus and in return increased their performance in serving customers in
domains like providing solutions to their problems. This is one of the major reasons
why employee performance in B2 for the following questions were higher than in B1
(Q2 reliability- B2: 73.14% and B1: 69.29% and difference: 3.85%, Q4
responsiveness- B2: 71.14% and B1: 70.29% and difference: 0.85%, Q3 assurance-
B2: 69.29% and B1: 67.29% and difference: 2% and Q1 empathy- B2: 65.14% and
B1:60% and difference: 5.14%). In this regard customer satisfaction was higher in B2.
In addition, management feedback stipulated that one of the major reasons why drivers
do not usually want to interact with customers was due to the fact that they (drivers)
could be robbed. Management should make use of technology in order to reduce
drivers‟ handling of cash so as to reduce their fears and then boost their confidence in
interacting with passengers. This will increase service quality and customer
satisfaction.
6 Conclusion
In this section, a brief summary will be provided while taking into consideration some of the
points made in the introduction, in order to answer our research questions. Recommendations
based on the results of this research would also be provided.
78
6.1 Effectiveness of SERVQUAL in measuring service quality
This research and its results is evidence that SERVQUAL has the ability to capture most or all
relevant dimensions within the service process. It has a highly diagnostic value because it is
able to assess the broad service areas, showing those areas which are performing adequately
or inadequately. It is highly predictive because it can reveal areas of the service process from
which complaints are most likely to come from. In this regard, adjustments can be made to
improve the service area, hence increase service quality and customer satisfaction. In addition,
it takes into consideration the impact of the service characteristics on service performance,
service quality and customer satisfaction which is vital when comparing service quality across
an industry like public transportation. Although “some transport service quality literature
pointed out that several methods could be used for measuring service quality” (Cavana et al.,
2005, p.11), this will depend on the type of users, purpose for using the measure and the
environment in which the service is provided. SERVQUAL‟s high diagnostic value minimises
makes it appropriate for measuring service quality while taking into account these differences.
The developers of SERVQUAL contended that the scale using the expectation and
performance gaps method is a much richer and effective approach to measuring service
quality (Parasuraman et al., 1985, 1988, 1994). They pointed out that service quality is a
multidimensional rather than a uni-dimensional construct. In our survey, the scale method was
effective because we realised that the scales made it possible to measure every individual‟s
perception of service quality taking part in the survey, thus enabling the our research to
capture and measure service quality as perceived by these wide range of respondents. In
addition, due to the fact that “the characteristics of service quality are not objective, but
subjective for each customer the scale was the most appropriate way to consider everybody‟s
opinion.
SERVQUAL also reveals the impact employees‟ performance has on service quality. Some
researchers stress that service encounter is the focal source of service quality (Czepiel et al.
1985) the so-called moments of truth (Carlzon, 1987). In our survey, we found that customer
interaction with employees was a point of failure, that is had a low mean. So this view is true.
In our survey, low or inadequate employee performance is a source of service failure and
customer dissatisfaction. Therefore, employees should be equipped with the tools especially
technology that will enhance their performance. In addition, SERVQUAL has also revealed
the synergy between technology and employee performance. Technology can increase
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employee performance if the technology relieves them of certain work load while at the same
time enable them (employees) to focus on those services customers value more.
To conclude, the points mentioned above make SERVQUAL effective in measuring service
quality in public transportation. Based on this research and its result, we support the views
many other researchers who have used the SERVQUAL dimensions as the basis for their
research and have confirmed that SERVQUAL “has undoubtedly had a major impact on the
business and academic communities” (Buttle, 1996, p. 24), and has been said to be “insightful
and [to remain] a practical framework to use in service quality management” (Christopher et
al. 2002, p. 177).
6.2 The impact of technology on customer satisfaction
Meuter et al. (2000) reported that the level of customer satisfaction with technology-based
services depend on its ease of use, ability to avoid interference from employees, time savings,
convenience, and financial savings, with the most important factors affecting the adoption of
SST being: ease of use and time savings. The technology acceptance model (TAM) also
identified two factors of major importance: ease of use and usefulness as criteria that
influence customers‟ acceptance of new technology (Davis, 1989; Davis et al., 1989).
Dabholkar (1996) had further developed this model, proposing an attribute-based model of
SST consisting of five factors: speed of delivery, ease of use, reliability, enjoyment, and
control; the feeling of “self-control” makes is easier of customers to accept new technology
(Globerson and Maggard, 1991; Lee and Allaway, 2002). These views were well reflected in
our survey and therefore we agree with these researchers because our respondents told us the
same. Based on the results of the survey, many used the net and the charge cards because of
the above mentioned benefits like speed of delivery, convenience, avoidance of interference
with employees and above all financial benefits. These reasons contributed to the higher
usage of technology by customers of B2 over B1 and also a higher service quality and
employee performance and customer satisfaction in B2 over B1.This survey has proven as
well as support the views of (Lusch and Vargo, 2004, p.7) that “the customer is primarily an
operant resource, only functioning occasionally as an operand resource” (Lusch and Vargo,
2004, p.7) and in this regard, co-production will enhance service quality and customer
satisfaction. This evident in the survey whereby increase use of online purchase of tickets by
B2 customers, had a positive multiplier effect on employee performance in B2 than in B1.
80
6.3 Recommendations
SERVQUAL should be used to measure service quality, but managers or users must make
sure that they adapt the questions as well as measurements to appropriately relate to the
service and industry being studied. In addition, comparisons should be made with outside
measures like customer complaint data in order to determine the extent of its effectiveness in
capturing and diagnosing all relevant areas within the service process that could impact
customers‟ perception and evaluation of service quality. Results should be used to make
improvements. It is only in this regard that the benefits of SERVQUAL would be fully
utilised.
Public transportation companies should invest in technology especially internet-based
technologies because according to Hof (1999) recent studies capture a rapid growth in
Internet-based transactions. This provides a platform for co-production. Since co-production
has been made possible through the advancement of technology, service providers should
invest more in self service technologies to boost service quality and customer satisfaction.
Investment in technology should be geared towards increasing the value of the core service
and achieving synergies with employee performance. As seen in the this survey, employee
performance also has a significant impact on service quality in this industry. Technology
should also be used in order to facilitate the complaint process. Technology is cheap and fast
and as a result is a preferable mode of complaint by customers. If this is done, much data on
customers likes and dislikes about the service can be gathered and analysed in order to be
used during the decision making process. In addition, this data could be used to assess the
effectiveness of SERVQUAL in capturing all relevant areas in the service process within the
company. Technology has a triple positive effect on services because it reduces cost, increases
customer satisfaction through co-creation and co-production and finally it relieves the
employees from the burden of some tasks and enables them to focus on other vital tasks in the
service process. In addition, it can also enhance customer relationship management (CRM),
thereby improving the relationship between the service provider and the customer. The
survival of the company will be assured. This is because high service quality leads to
customer loyalty (Lewis, 1994) hence higher profitability (Gundersen et al., 1996) through
lower cost (Grant, 1998).
However, service providers must ensure that technology is reliable, easy to use, fast and cost
saving both from the customers‟ perspective and the company. If this is not done, technology
81
can contribute enormously towards customer dissatisfaction, hence decrease perceived service
quality. For example, in the bus systems, the card punching machines often break down. Our
survey revealed that customers were really disappointed with this service. The question Q2
(Tangibles) ranked 19, having one of the largest Gap 5:37.2% compared to other questions in
the SERVQUAL section of our questionnaire.
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