Quality and Use of Mobile Applications for Transportation Service: Influence on Satisfaction
Calidad y uso de aplicaciones móviles para el servicio de transporte: influencia en la satisfacción

 

Claudia Leticia Preciado-Ortiz

Universidad de Guadalajara (Mexico)

claudia.preciado@cucea.udg.mx

 

Received: May 13, 2021

Accepted: June 29, 2021

 

ABSTRACT

 

The main objective of this research work was to analyze the factors that influence satisfaction and the intention to continue with the use of mobile transport applications in young university students from Guadalajara, Jalisco, Mexico. The approach was quantitative. 144 valid responses were used, and partial least squares structural equation modeling (PLS-SEM) was used to test the model. The software employing was the SmartPLS 3. The results indicate that the quality of the design, the quality of the information and the quality of the system are predictors of influence on satisfaction. Companies that offer individual passenger transport through a mobile application have increased in recent years, generating strong competition both between existing brands and with established traditional taxis. This study provides new and recent information for marketing managers and academics on application user behavior in the transportation industry.

 

Keywords: mobile app, public transport, satisfaction, intention to continue use.

 

JEL CODE: M31, M15

 

 


 

 

 

RESUMEN

 

El presente trabajo de investigación tuvo como principal objetivo analizar los factores que influyen en la satisfacción y la intención de continuar con el uso de aplicaciones móviles de transporte en los jóvenes universitarios de Guadalajara, Jalisco, México. El método fue cuantitativo. Se utilizaron 144 respuestas válidas y se utilizó el modelado de ecuaciones estructurales de mínimos cuadrados parciales (PLS-SEM) para probar el modelo. El software empleado fue SmartPLS 3. Los resultados indicaron que calidad de diseño, calidad de la información y calidad del sistema son predictores influyentes en la satisfacción. Las empresas que ofrecen transporte individual de pasajeros mediante una app móvil han aumentado en los últimos años generando una fuerte competencia tanto entre las marcas existentes como con los taxis tradicionales establecidos. Este estudio aporta información nueva y reciente para los directores de marketing y académicos sobre el comportamiento del usuario de apps en la industria del transporte.

 

Palabras clave: aplicación móvil, transporte público, satisfacción, intención de continuar el uso.

 

JEL CODE: M31, M15

 

 

 


 

 

 

INTRODUCTION

 

Mobile applications (apps) currently occupy an important place in daily life (Jain, Kumar & Singla, 2014), even becoming indispensable in daily activities (Soemantadiredja, Vitayala & Hermadi, 2017), and changing the ways of life of many ways (Chan et al., 2016).  Mention an example are the applications to stay related to other people in the personal or work environment (Whatsapp, Facebook, Messenger, Zoom, Google Meet, among others), or to communicate and perform basic activities (such as remembering the time to wake up, take medicine or a meeting) or even applications that are in the form of financial services, airline reservation services, shopping, games, health applications, food and fitness and a new service in ordering taxis (Keong, 2016).

 

The taxi sector has recently had a phase of disruption generated by social, cultural, and economic changes through the introduction of the internet and new technologies (Akbulaev, 2020). Emerging mobile transport based on complementary or independent technological platforms that act as intermediaries between passengers and drivers, using applications appearing in countries around the world (Agyeman, Kwarteng & Zurkalnaine, 2019).

 

This new taxi ordering service is called Mobile Booking Taxi Application (MBTA) (Kanti, Anandya & Rahardja, 2018), where the user makes the point-to-point service request from a mobile device at any time and from anywhere (Harding, Kandlikar & Gulati, 2016; Kanti et al., 2018; Mohamed, Rye & Fonzone, 2020). 

 

For example, Uber, Hailo, Curb and Lyft in the USA, Uber and Cabify in Europe and Latin America, App Chiflea in Ecuador, Easy taxi and 99 taxis in Brazil, Little and Mondo in Africa, or Grab, Go-Jek, Didache, Kuaidi Dache, Didi, Meru, Ola, and Hailing in Asia. This innovation has generated new direct competition to taxis, since in the beginning the absence of legislation to operate in this sector, previously exclusively for taxis, caused problems in public transport policies, such as monopoly or protests in different countries, especially the poorest, that they were not prepared for this (Harding et al., 2016; Akimova, Arana-Landín & Heras-Saizarbitoria, 2020; Cetin & Deakin, 2017; Paronda, Regido & Napalang, 2016; Ye et al., 2018; Contreras & Paz, 2018; Agyeman et al., 2019; Mohamed et al., 2020; Sánchez-Torres, Correa & Gómez, 2020).

 

In various parts of the world, the individual public passenger service (taxis) had been presenting problems related to asymmetries of information and coordination between client and driver, as it was not known precisely where to take a taxi, service hours, and driver reliability, safety, cleanliness and vehicle quality, knowledge of the city by the driver and the price to pay for the service offered, among others, reflecting on uncomfortable trips for the consumer (Balachandran & Bin, 2017).

 

To address these problems, different work schemes and their regulation have been adopted with varying degrees of success, implementing the MTBAs to provide better quality services to passengers and entirely in tune with market changes (Hamzah et al., 2018; Weng et al., 2017) being proposed for their applicability in taxis in many countries (Ge et al., 2020; Nguyen-Phuoc et al., 2020; Wang et al., 2016; Ye et al., 2018; Zhang, Honnappa & Ukkusuri, 2020).

 

The advantages it provides is that by using the MTBAs users keep always informed about the time, price, route, and driver data of the vehicle (Weng et al., 2017). Users can fix the departure and destination location by GPS or by typing the location that drivers can easily reach (Chan et al., 2016).

 

This type of application motivates the user to change their habit of using private transport to public transport (Kanti et al., 2018). In the literature, some research can be found on the factors that influence the intention to use, consumer satisfaction, quality of service, loyalty, among other aspects regarding public or private transport in different countries of the world, such as in Indonesia (Sumaedi, Bakti & Yarmen, 2012); South Africa (Govender, 2014); United States (Rayle, 2014; Hong & Zhang, 2017); Vietnam (Khuong & Dai, 2016); and Malaysia (Balachandran & Bin, 2017), however, it can be identified by the recentness of the subject, that there is still a significant gap in the literature regarding the taxi industry, the use of apps in this sector and the consumer. Considering the foregoing, the purpose of this document is to identify what factors affect satisfaction and the intention to continue using the apps of the so-called transportation network companies or ERT.

 

 

MOBILE APPLICATIONS IN INDIVIDUAL PUBLIC TRANSPORT

 

Based on the development of smartphone technologies and global positioning systems, various companies have emerged dedicated to mediating the agreement between users and providers of individual public transport services through downloadable applications on mobile devices, which makes, on the one hand, the user demands point-to-point transport services and, on the other hand, a group of private drivers offers the service by using the same application and their vehicles.

 

These companies "are called Transport Network Companies or ERT" (Federal Commission of Economic Competition, 2015: 2). According to the Mexican Institute of Transportation (IMT, 2007), the transportation service is classified as private and public, subdividing the latter into "collective public transportation and individual public transportation (point-to-point taxi and route or subject to itinerary)” (Federal Commission for Economic Competition, 2015: 1). Within the individual public transport of passengers, the traditional taxi, ridesharing and ERT can be identified.

“Traditional taxis are subject to specific regulation of passenger transport and imply the provision of public service in exchange for a regulated charge. Ridesharing consists of sharing a car without an economic transaction involved and, it usually occurs between people who know each other. ERTs use technological platforms to communicate passengers with independent drivers” (Federal Commission of Economic Competition, 2015: 2).

 

ERTs have taken two different forms:

- Complementary platforms are those that connect consumers of point-to-point transport services with taxi drivers registered in the public service modality. In Mexico, an example of these systems is Easytaxi and Yaxi.

 

- Independent platforms, which are those that through an application connect drivers who offer private services to consumers. Examples of these platforms are Uber and Cabify (Federal Commission for Economic Competition, 2015: 2-3).

 

According to the Global Mobile Consumer Survey (GMCS) 2017 Mexico chapter, on average there are 14 applications installed on most mobile devices, and that in terms of payments shows that paying for a taxi (54%) is the most performed activity by users using smartphones.

 

According to Statista (2019), it is observed that the number of users of mobility apps in the world to request a driver service (taxi, uber, cabify), rent a car or bicycle for short trips or share vehicles is considerable. Of the 43,034 respondents from 52 countries, China, Russia, Spain, and the US occupy the first positions (51%, 38%, 35% and 35%, respectively), followed by Brazil (33%), the United Kingdom (30 %), France (26%), India (23%), Italy (21%) and Germany (20%).

 

Although Mexico is not among the ten countries with the most users of this type of application, it has taken significant steps in this industry. According to The Competitive Intelligence Unit (CIU) (January 20, 2020), transportation platforms have increased their preference among consumers over traditional alternatives. In 2019, 59.6 million (71%) of Internet users in Mexico made payments through an app or website. Of this percentage, 16.2% corresponds to transport applications, only below the payment of audiovisual content platform services (22.1%) and the sale of electronic products (17.8%). Within the transport service, the five leading players are Uber (80%), Cabify (14%), DiDi (4%), Easy Taxi (1%) and Beat (1%).

 

It is important to mention that its growth in the market will depend on the standards of service quality, reputation and price level perceived by users in its horizontal comparison and compared to traditional substitutes. In the same way, the increase in payment options and greater security in the provision of the service.

 

 

THEORETICAL MODEL AND DEVELOPMENT OF HYPOTHESES

 

Mobile commerce is one of the areas most favored by companies that have known how to adapt. According to Rojas (2019), applications give the consumer the impression that the service is tailor-made for them, which encourages brand identification. In this way, the company can carry out the user by the hand throughout the purchase process, facilitate the transaction and the knowledge or exploration of the product or service offered in a close and immediate language.

 

The information systems (IS) success model of DeLone and McLean (2003) explains the impact of IS at the individual and organizational level (Lee & Chung, 2009) and was the one that was taken as the basis for the development of the model research of this work. However, our research focused solely on the individual level of the constructs: quality of the system, quality of the information and the quality of the interface design and its consequent impact on the intention of use and customer satisfaction (Figure 1).

Figure 1. Theoretical model

System quality

Design quality

Satisfaction

Intention to continuance to use

Information quality

Perceived risk

 

 

 

 

 

 

 

 

 

 

 

 

 

Source: own elaboration.

 

 

 

Considering that behavioral intentions can be seen as the signals that are shown if the client continues to use the services of a company or changes to a different provider (Zeithaml et al., 1988). Therefore, through a better understanding of passenger participation, more appropriate marketing strategies can be developed and adapted to services (Lai & Chen, 2011).

 

System quality

DeLone and McLean (1992) introduced the concept of system quality defining it as the quality manifested in the general performance of a system and measured by the perceptions of individuals (DeLone & McLean, 2003). Kleijnen and others (2004) defined it as degree to wich individuals perceive that the system is satisfying, in terms of transfer speed and reliability (cited in Kumar & Ravindran, 2012).

 

It is logical to think that when consumers perceive a quality system it positively affects satisfaction (DeLone & McLean, 2003; Wang, 2008; Justitia, Semiati & Ramadhini, 2019) and therefore the intention to continue using the system, in this case, the application (Li, 2013; Yang et al., 2020).

 

H1: System quality has a positive and significant impact on satisfaction.

 

H2: System quality has a positive and significant impact on the intention to continue using the app.

 

Information quality

Ding and Straub (2008) define information quality as “the ability to provide information to benefit users in terms of accuracy, completeness and up-to-date” (Kumar & Ravindran, 2012).

 

Information is one of the important aspects for the client when making the decision to use and pay for a service. In matters of mobile apps, it is not the exception, and it could be said that the quality of the information presented acquires major importance. Having sufficient information guides consumers to make better decisions and allows them to accept and continue using a product or service (Lee & Chung, 2009; Sripalawat et al., 2011; Li, 2013; Justitia, Semiati & Ramadhini, 2019; Yang et al., 2020) more easily.

 

Information is essential in any innovation diffusion process (Cruz et al., 2010) and plays a crucial role in reducing consumer resistance (Jun & Cai, 2001; Rogers, 2003; Cruz et al., 2010; Kwame, 2013).

 

 

 

H3: Information quality has a positive and significant impact on satisfaction.

 

H4: Information quality has a positive and significant impact on the intention to continue using the app.

 

Design quality

The quality of the design of the transport mobile app is another important aspect to consider (Bharati & Chaudhury, 2004). Some authors associate this characteristic as the device barrier, inappropriate device (Cruz et al., 2010; Sripalawat et al., 2011), design (Lee & Chung, 2009; Poey & Arffin, 2015) or interface design (Yu & Fang, 2009). In the mobile context, it can be defined as “the relative importance in the attributes of the services (screen size, keyboard, location, response time” (Laukkanen, 2007; Yang, 2009). A bad interface design can negatively influence your satisfaction and use (Lee & Chung, 2009; Olubusola, 2015; Yang et al., 2020).

 

H5: Design quality has a positive and significant impact on satisfaction.

 

H6: Design quality has a positive and significant impact on the intention to continue using the app.

 

Perceived risk

The perceived risk was evaluated as an uncertainty about the possible negative effect of the use of products or services (Srivastava & Sharma, 2011) or also the degree of uncertainty of the consumer regarding the result of a purchase decision (Keong, 2016). The perceived risk plays an important role in the use or purchase online since it is related to the perceptions of the users (Currás-Pérez et al., 2013). In this context it is defined as the “uncertainty about the result of the use of innovation” (Ram & Sheth 1989; Miyazaki & Fernandez, 2001; Gerrard & Cunningham, 2003; Cruz et al., 2010).

 

Research on technology adoption provides evidence that an individual's perception of risk is important when considering the acquisition of a new technology or service (Laforet & Li 2005; Yang, 2005; Im et al., 2007; Sohail & Al-Jabri, 2014; Kanti et al., 2018).

 

In the context of mobile apps, the perception of risk is even more important due to the threat of privacy and security concerns (Luarn & Lin 2005; Reid & Levy, 2008; Olubusola, 2015). For example, fear of losing confidential information (Kuisma et al., 2007), hackers who can access your bank account by making unauthorized charges (Poon, 2008), or fear to the loss or theft of a mobile device with stored data (Coursaris et al., 2003; Kwame, 2013).

 

Therefore, the perception of risk affects both satisfaction and the intention to continue using an app (Wang et al., 2018, Lim et al., 2018; Kanti et al., 2018; Razi et al., 2019).

 

H7: Perceived risk is negatively associated with satisfaction.

 

H8: Perceived risk is negatively associated with consumers’ intention to continuance to use apps.

 

Satisfaction

Satisfaction can be defined as the consumer's feeling that the consumption of a product delivers results against a standard of pleasure or displeasure. This definition mirrors on one side, satisfactions cognitive nature, i.e., comparison between expectations and performance while on the other side, it mirrors on the afective nature which is the related pleasure feeling (Moliner et al., 2007 cited in Olubusola, 2015: 2).

 

Mobile consumer user satisfaction (MCUS) can be defined as

 ''a summary affective response of varying intensity that follows mobile commerce activities and is stimulated by several focal aspects, such as information quality, system quality, and service quality'' (Wang & Liao, 2007: 384).

The more satisfied the users are, then the higher the probability that the users will continue to use the current application (Wang, 2008; Oghuma et al., 2016; Kanti et al., 2018). At the same time, the results of several studies on satisfaction and intention to continue are positively accepted (Lai & Chen, 2011; Lee & Kwon, 2011; Kanti et al., 2018) including public transport services (Joewono & Kubota, 2007; Nathanail, 2008; Lai & Chen, 2011; Wang & Liao, 2007; Li & Liu, 2014; Weng et al., 2017; Kanti et al. 2018).

 

H9: Satisfaction has a positive and significant impact on intention to continue using the transportation application.

 

 

METHODOLOGY

 

The present investigation used the quantitative approach. The main method of data collection was surveyed. The items of the questionnaire were adapted and modified from scales previously developed and validated with the appropriate coding for the conditions of young Mexican users. Each item was measured on a 5-point Likert scale with responses ranging from "totally agree" to "totally disagree". The unit of analysis was the undergraduate student, user of private transport applications of the University Center for Economic-Administrative Sciences (CUCEA) of the University of Guadalajara. Previous experience was necessary to be able to evaluate satisfaction and intention to continue using this type of app. The sampling technique was random, with a size of 202 participants from the various educational programs. Of this number of applied surveys, once the data had been tabulated and reviewed, 144 good surveys remained (corresponding to 71.28%), eliminating the missing or null data. Partial least squares structural equation modeling (PLS-SEM) was used to test the model. The software employing was the SmartPLS 3.

 

 

RESULTS

 

First, the profile of the participants was obtained. Table 1 presents the results of gender the participants, age, monthly income, when was the last time they used a ride hailing app, how long they have been using this kind of app, what is the application you use the most, frequency of use, used and brand of the device.

 

Table 2 presents the results of the reliability and validity test. All measures meet the quality criteria: factor loadings are greater than 0.7, average variance extracted is greater than 0.5, and composite reliability is greater than 0.7. Furthermore, all constructs showed sufficient levels of discriminant validity according to the heterotrait-monotrait (HTMT) criterion (Hair et al., 2017).

 

The results of the inner model are provided in Table 3. Precisely, we report the path coefficients (and their significance), the R2 values and some further quality criteria, such as the effect sizes (f2), the Q2 values based on the blindfolding procedure, and variance inflation factors (VIF) (which are below the threshold).

 

Design quality (0.282, p = 0.010), information quality (0.283, p = 0.014), and system quality (0.192, p = 0.019), are positively and significantly related to Satisfaction. Therefore, Hypotheses 1, 3 and 5 are supported, respectively. Previous studies (Justitia et al. 2019 and Olubusola 2015) tested these hypotheses.

 

On the other hand, hypotheses 2, 4, 7, 8, 9 are rejected. Because in the case of perceived risk with satisfaction, the path coefficient did not show an inverse relationship between the variables. That is, to higher perceived risk, the satisfaction is lower, in addition to the fact that the p value was not significant. Like the result obtained from perceived risk and the intention to continue using the app.

 

The rest of the hypotheses related to the intention to continue using the app (system quality, information quality, design quality and satisfaction) were rejected because the p-value was not significant.

 

Table 1. User characteristics

Variable

Frequency

Percentage

Gender

 

 

    Man

57

39,6

    Woman

87

60,4

Age

 

 

    Less than 20 years

39

27,1

    Between 21 and 30 years

103

71,5

    More than 31 years

2

1,4

Monthly income

 

 

   Less than $ 2000

47

32,6

   From $ 2001 to $ 3000

31

21,5

   From $ 3001 to $ 4000

21

14,6

   From $ 4001 to more

45

31,3

When was the last time you used the mobile applications to request a transportation service?

 

 

    Today

12

8,3

    1 - 7 days ago

71

49,3

    1 - 2 weeks ago

23

16,0

    3 - 4 weeks ago

21

14,6

    2 - 3 months ago

15

10,4

    3 - 4 months ago

2

1,4

What was the application you used?

 

 

    Uber

138

95,8

    Cabify

3

2,1

    Easy taxi

2

1,4

    City driver

1

,7

Since when you have used the private transport applications?

 

 

    Less than a month

8

5,6

    1 to 6 months

46

31,9

    7 to 12 months

37

25,7

    More than a year

53

36,8

How often do you use it?

 

 

    Everyday

3

2,1

    Two or three days a week

25

17,4

    Weekends

63

43,8

    Other

53

36,8

What is your form of payment?

 

 

    Cash

61

42,4

    Card

69

47,9

    Both

14

9,7

What type of mobile device do you use most frequently to access the private transport application?

 

 

    Smartphone

141

97,9

    Tablet

1

,7

    iPod touch

2

1,4

Who is the manufacturer of the device?

 

 

    Apple

44

30,6

    HTC

4

2,8

    Motorola

18

12,5

    Samsung

38

26,4

    LG

9

6,3

    Nokia

2

1,4

    Sony Ericson

1

,7

    Other

28

19,4

Source: own elaboration.

 

 

 

 

Table 2. Measures

Construct

(Source)

Items

Loading

AVE

Composite reliability

HTMT- (BcA-) confidence interval includes 1

Design quality

X1_1

X1_2

X1_3

X1_4

X1_5

0.822

0.849

0.852

0.776

0.786

0.668

0.910

No

Information quality

X2_1

X2_2

X2_3

X2_4

X2_5

0.846

0.809

0.847

0.831

0.789

0.680

0.914

No

Perceived risk

X3_1

X3_2

X3_3

X3_4

0.796

0.827

0.795

0.733

0.621

0.868

No

Satisfaction

X4_1

X4_2

0.902

0.898

0.811

0.895

No

System quality

X5_1

X5_2

X5_3

X5_4

0.811

0.733

0.848

0.876

0.670

0.890

No

Intention to continuance to use

X6_1

X6_2

X6_3

0.885

0.873

0.729

0.692

0.870

No

Source: own elaboration.

 

Similarly, R2 represents the amount of variance in a dependent construct that is explained by all the antecedent constructs associated with it and whose values range between zero and one, the higher the level of precision in the prediction. It is the measure of the predictive value of the model and therefore the predictive power of the sample (Hair et al., 2017). According to Hair and others (2011), and Henseler and others (2009) in marketing, R2 values of 0.75 are considered important, 0.50 moderate and 0.25 weak (Hair et al., 2017).

 

The results of R2 for satisfaction are explained 45% by quality of the system, quality of the information, quality of the design and perceived risk. According to the thresholds established in the literature, it can be considered moderate values.

 

But in the case of intention to continue using the app, R2 turned out to be low, 29.7%, which partly coincides with the fact that the predictive power of the sample for this variable is low, since all the hypotheses associated with the intention were rejected.

 

 

 

 

 

Table 3. PLS-SEM analysis

Relationship

Path

coefficient

p-value

VIF

HTMT- (BcA-) confidence interval includes 1

BcA bootstrap 95% CI

System quality → Satisfaction

0.192**

0.019

1.599

0.042

No

[0.029;0.352]

Information quality → Satisfaction

0.283**

0.014

2.289

0.063

No

[0.040;0.497]

Design quality → Satisfaction

0.282***

0.010

1.977

0.073

No

[0.071;0.503]

Perceived risk → Satisfaction

0.037

0.668

1.402

0.002

Si

[-0.124;0.213]

System quality → Intention to continuance to use

0.116

0.200

1.666

0.012

Si

[-0.057;0.298]

Information quality → Intention to continuance to use

-0.038

0.751

2.434

0.001

Si

[-0.268;0.206]

Design quality → Intention to continuance to use

0.235**

0.047

2.122

0.037

Si

[-0.006;0.459]

Perceived risk → Intention to continuance to use

0.247**

0.025

1.405

0.062

No

[0.018;0.453]

Satisfaction → Intention to continuance to use

0.137

0.247

1.817

0.015

Si

[-0.099;0.361]

R² (Satisfaction)

0.450

 

 

 

 

 

R² (Intention to continuance to use)

0.297

 

 

 

 

 

Q² (Satisfaction)

0.316

 

 

 

 

 

Q² (Intention to continuance to use)

0.185

 

 

 

 

 

Source: own elaboration.

 

 

 

CONCLUSIONS

 

In conclusion, it can be mentioned that it is important for companies to be at the forefront of technology since apps are an excellent tool or strategy, from the point of view observed, to welcome the market, position themselves and facilitate the purchase processes between the company and the customers.

 

With mobile devices, companies can adopt a business mobility strategy, saving costs, gaining flexibility and being able to optimize processes due to obtaining customer information in real-time and improving corporate communications. Similarly, using mobile marketing, the interaction between the company and its customers is promoted, facilitates the dissemination of offers and promotions, encourages purchases, improves customer loyalty, and favors the image of the brand. All this was influencing the future of business around the world.

 

Given this, the transport network companies are here to stay and satisfy the needs of the consumer regarding individual public transport, emphasizing that a better knowledge of the user will lead to improving the service offered and with it the loyalty, continuity of use and promotion of Word of mouth from the user, reflecting in higher sales and therefore profits for companies.

 

As recommendations and future lines of research, it is necessary to expand and refine the sample to be able to evaluate the predictive power of the model with greater certainty, as well as to review the database in detail to identify possible errors that influenced the behavior of the results.

 

REFERENCES

 

Agyeman, S., Kwarteng, R. A. & Zurkalnaine, S. (2019). Principal component analysis of driver challenges in the shared taxi market in Ghana. Case Studies on Transport Policy, 7(1), 73–86. https://doi.org/10.1016/j.cstp.2018.12.001.

 

Akbulaev, N. (2020). The impact of the taxi service mobile applications on the financial condition of taxi companies. International Journal of Scientific and Technology Research, 9(2), 2144–2150.

 

Akimova, T., Arana-Landín, G., & Heras-Saizarbitoria, I. (2020). The economic impact of transportation network companies on the traditional taxi sector: An empirical study in Spain. Case Studies on Transport Policy. 0–1. https://doi.org/10.1016/j.cstp.2020.02.002 February.

 

Balachandran, I. & Bin, H. I. (2017). The influence of customer satisfaction on ride-sharing services in Malaysia. International Journal of Accounting & Business Management. 5 (2). https://doi.org/24924/ijabm/2017.11/v5.iss2/184.196

 

Bharati, P. & Chaudhury, A. (2004). An empirical investigation of decision-making satisfaction in web-based decision support systems. Decision Support Systems, 37, 187–197.

 

Cetin, T. & Deakin, E. (2017). Regulation of taxis and the rise of ridesharing. Transport Policy, 76(September), 149–158. https://doi.org/10.1016/j.tranpol.2017.09.002.

 

Chan, J. W., Chang, V. L., Lau, W. K., Law, L. K., & Lei, C. J. (2016). Taxi App Market Analysis in Hongkong. Journal Economy Business Management, 4 (3), 239-242.

 

Contreras, S. D. & Paz, A. (2018). The effects of ride-hailing companies on the taxicab industry in Las Vegas, Nevada. Transportation Research Part A: Policy and Practice, 115(November 2017), 63–70. https://doi.org/10.1016/j.tra.2017.11.008.

 

Coursaris, C., K. Hassanein, K. & Head, M. (2003). M-Commerce in Canada: An Interaction Framework for Wireless Privacy. Canadian Journal of Administrative Sciences, 20 (1), 54-73.

 

Cruz, P., Barreto, F. N. L., Muñoz-Gallego, P. & Laukkanen, T. (2010). Mobile banking rollout in emerging markets: Evidence from Brazil. International Journal of Bank Marketing, 28(5), 342-371.

 

Currás-Pérez, R., Ruiz-Mafé, C. & Sanz-Blas, S. (2013). Social Network Loyalty: Evaluating the Role of Attitude, Perceived Risk, and Satisfaction. Online Information Review, 37 (1), 61-82.

 

Delone, W. & McLean, E. (1992). Information systems success: the quest for the dependent variable. Information Systems Research, 3 (1), 60–95.

 

Delone, W. & McLean, E. (2003). The DeLone and McLean model of information systems success: a ten-year update. Journal of Management Information Systems, 19 (4), 9–30.

 

Federal Commission for Economic Competition (2015). Opinion OPN-008-2015. Link: https://www.cofece.mx/CFCResoluciones/docs/Mercados%20Regulados/V6/16/2042252.pdf

 

Ge, W., Shao, D., Xue, M., Zhu, H., Zhao, X. & Cheng, J. (2020). Urban taxi ridership analysis in the emerging metropolis: Case study in Shanghai. Case Studies on Transport Policy, 8(1), 173–179. https://doi.org/10.1016/j.cstp.2018.09.006.

 

Gerrard, P. & Cunningham, J.B. (2003). The impact of perceived risks on banking managers intention to outsource business processes – a study of the German banking and finance industry. International Journal of Bank Marketing, 21 (1), 16-28.

 

Govender, K. (2014). Public Transport Service Quality in South Africa: A Case Study of Bus and Min Bus Services in Johannesburg. African Journal of Business Management. 8(10) 317-326.

 

Hair, J., Hult, G., Ringle, C. & Sarstedt, M. (2017). A Primer on Partial Least Square Structural Equation Modeling (PLS-SEM). Estados Unidos, California: Sage.

 

Hair, J., Hult, G., Ringle, M. & Sarstedt, M. (2011). PLS-SEM: Indeed, a Silver Bullet. Journal of Marketing Theory and Practice, 2(19), 139-151.

 

Harding, S., Kandlikar, M. & Gulati, S. (2016). Taxi apps, regulation, and the market for taxi journeys. Transportation Research Part A: Policy and Practice, 88 (December 2014), 15–25. https://doi.org/10.1016/j.tra.2016.03.009.

 

Henseler, J., Ringle, C. M. & Sinkovics, R. R. (2009). The use de partial least squares path modeling in international marketing. Advances in International marketing, 20, 277-320.

 

Hong Z. & Zhang Z. (2017). An Empirical Analysis of On Demand Ride-Sharing And Traffic Congestion. Proceedings of The 50th Hawaii International Conference On System Sciences.

 

Im, S., Mason, C.H. & Houston, M.B. (2007). Does innate consumer innovativeness relate to new product/service adoption behavior? The intervening role of social learning via vicarious innovativeness. Journal of the Academy of Marketing Science, 35 (1), 63–75.

 

Jain, L., Kumar, H. & Singla, R. K. (2014). Assesing Mobile Technology Usage for Knowledge Dissemination among Farmers in Punjab. Information Technology for Development, 21 (4), 1-9.

 

Joewono, T.B. & Kubota, H. (2007). User satisfaction with paratransit in competition with motorization in Indonesia: anticipation of future implications. Transportation 34, 337–354.

 

Jun, M. & Cai, S. (2001). The key determinants of internet banking service quality: a content Analysis. International Journal of Bank Marketing, 19 (7), 276-91.

 

Justitia, A. Semiati, R. & Ramadhini, A. N. (2019). Customer Satisfaction analysis of online taxi mobile apps. Journal of information systems engineering and business intelligence, 5 (1). http://dx.doi.org/10.20473/jisebi.5.1.85-92

 

Kanti, M. W., Anandya, D. & Rahardja, C. (2018). Continuance Usage Intention of Gojek Application in Surabaya. ICEMAB. http://dx..doi.org/10.4108/eai.8-10-2018.2288664

 

Keong, W. Y. (2016). Factors Influencing Passengers' Attitude and Adoption Intention of Mobile Taxi Booking. The Social Science, 11 (11), 2769-2776.

 

Khuong M. N. & Dai N. Q. (2016). The Factors Affecting Customer Satisfaction And Customer Loyalty — A Study Of Local Taxi Companies In Ho Chi Minh City, Vietnam. International Journal Of Innovation, Management And Technology, 7 (5).

 

Kleijnen, M., Wetzels, M. & Ruyter, K. (2004). Consumer acceptance of wireless finance. Journal of Financial Services Marketing, 8(3), 205-217.

 

Kumar, R. & Ravindran, S. (2012). An empirical study on service quality perceptions and continuance intention in mobile banking context in India. Journal of internet banking and commerce. 17(1).

 

Kwame, R. (2013). Banking Innovation in Ghana: Insight of Students’ Adoption and Diffusion. Journal of Internet Banking and Commerce, 18 (3).

 

Laforet, S. & Li, X. (2005). Consumers’ attitudes towards online and mobile banking in China. International Journal of Bank Marketing, 23 (5), 362–380.

 

Lai, W-T. & Chen, C.-F. (2011). Behavioral intentions of public transit passengers — The roles of service quality, perceived value, satisfaction and involvement, Transport Policy, 18, 318 – 325. https://doi.org/10.1016/j.tranpol.2010.09.003

 

Laukkanen, T. (2007). Internet vs mobile banking: comparing customer value perceptions. Business Process Management Journal, 13 (6), 788-797, https://doi.org/10.1108/14637150710834550

 

Lee, K.C. & Chung, N. (2009). Understanding factors affecting trust in and satisfaction with mobile banking in Korea: A modified DeLone and McLean’s model perspective. Interacting with computers. 21, 385 – 392.

 

Lee, Y. & Kwon, O. (2011). Intimacy, familiarity and continuance intention: An extended expectation–confirmation model in web-based services. Electron. Commer. Res. Appl., 10, 342–357.

 

Li, H. & Liu, Y. (2014). Understanding post-adoption behaviors of e-service users in the context of online travel services. Information & Management. http://dx.doi.org/10.1016/j.im.2014.07.004

 

Li, T. (2013). Applying the is success model to mobile banking apps. A Thesis Submitted to the School of Graduate Studies of the University of Lethbridge in Partial Fulfillment of the Requirements for the Degree. Master of Science in MAnagement, Faculty of Management. University of Lethbridge. Lethbridge, Alberta, Canada.

 

Lim, K., Yeo, S., Goh, M. & Gan, A. (2018).  Journal of Fundamental and Applied Sciences. 10(6S), 1132-1142.

 

Luarn, P. & Lin, H. (2005). Toward an understanding of the behavioral intention to use mobile banking. Computer in Human Behavior, 21, 873-891.

 

Mexican Institute of Transportation (IMT, 2017). Análisis de los Sistemas de Transporte.Mexico. Link: https://www.gob.mx/imt

 

Miyazaki, A. & Fernandez, A. (2001). Consumer perceptions of privacy and security risk for online shopping. The Journal of Consumer Affair, 35, 27–44.

 

Mohamed, M. J., Rye, T. & Fonzone, A. (2020). The utilisation and user characteristics of Uber services in London. Transportation Planning and Technology, 0(0), 1–18. https://doi.org/10.1080/03081060.2020.1747205

 

Nathanail, E. (2008). Measuring the quality of service for messengers on the Hellenic railways. Transp.Res. Part A 42, 48–66.

 

Nguyen-Phuoc, D. Q., Su, D. N., Tran, P. T. K., Le, D. T. T. & Johnson, L. W. (2020). Factors influencing customer's loyalty towards ride-hailing taxi services – A case study of Vietnam. Transportation Research Part A: Policy and Practice, 134 (March 2019), 96–112. https://doi.org/10.1016/j.tra.2020.02.008.

 

Oghuma, A. P., Libaque-Saenz, C. F., Wong, S. F. & Chang, Y. (2016). An Expectation-Confirmation Model of Continuance Intention to Use Mobile Instant Messaging. Telematics and Informatics, 33(1), 34-47.

 

Olubusola, A. (2015). User Satisfaction in Mobile Applications, Research Paper at School of Computer Science University of Birmingham. Link: http://www.cs.bham.ac.uk/~rjh/courses/Research/TopicslnHCi/2014-15/Submissions/ajayi-oluwande.pdf.

 

Paronda, A., Regido, J.  & Napalang, M. (2016). Comparative analysis of transportation network companies (TNCs) and conventional taxi Services in Metro Manila. 23rd Annual Conference of the Transportation (1–12). Link: https://s3.amazonaws.com/academia.edu.documents/54055483/Comparative_Analysis_Uber_Grab_Taxi_Paper_Paronda_2_FINALrev06302016.pdf?AWSAccessKeyId=AKIAIWOWYYGZ2Y53UL3A&Expires=1517457700&Signature=KVlw86klvqMeM34kwPCSdDj0xLc%3D&response-content-dispositio.

 

Poey, L. & Arffin, Z. (2015). Consumers’ Intention to Use a Single Platform E-Payment System: A Study Among Malaysian Internet and Mobile Banking Users. Journal of Internet Banking and Commerce, 20(1). http://www.arraydev.com/commerce/jibc/

 

Poon, W. C. (2008). Users’ adoption of e-banking services: the Malaysian perspective. Journal of Business and Industrial Marketing, 23 (1), 59-69.

 

Ram, S. & Sheth, J. (1989). Consumer resistance to innovations: the marketing problem and its solutions. Journal of Consumer Marketing, 6 (2), 5-14.

 

Rayle, L. (2014). App-Based, On-Demand Ride Services: Comparing Taxi and Ridesourcing Trips And User Characteristics In San Francisco; A Survey.

 

Razi, M., Tamrin, M. & Nor, R. (2019). Adopting e-hailing Application Among Malaysian Millennials. The 7th International Conference on Cyber and IT Service Management (CITSM 2019).

 

Reid, M. & Levy, Y. (2008). Integrating trust and computer self-efficacy with TAM: An empirical assessment of customers' acceptance of banking information systems (BIS) in Jamaica. Journal of Internet Banking and Commerce, 13(3), 1-18.

 

Rogers, E. (2003). Diffusion of Innovations, New York, Free Press.

 

Rojas, M. Q. (2019). La importancia de las apps móviles en las empresas. Economiatic. Link: https://economiatic.com/importancia-apps-moviles-empresas/

 

Sánchez-Torres, J., Correa, H. & Gómez, I. (2020). Assessment of mobile taxi booking apps: An empirical study of adoption by taxi drivers in Medellín-Colombia. Research in Transportation Business & Management, https://doi.org/10.1016/j.rtbm.2020.100500

 

Soemantadiredja, A., Vitayala, A., & Hermadi, I. (2017). Analysis Adoption of Innovation Go-jek Application. International Journal of Science and Research, 6 (3), 936-940.

 

Sohail, S. & Al-Jabri, I. (2014). Attitudes towards mobile banking: are there any differences between users and non-users?. Behaviour & Information Technology. 3(4), 335-344.

 

Sripalawat, J., Thongmak, M. & Ngramyarn, A. (2011). M-banking in Metropolitan Bangkok and a comparison with other countries. The Journal of Computer Information Systems, 51(3), 67-76.

 

Srivastava, K. & Sharma, N. (2011). Exploring the Multidimensional Role of Involvement and Perceived Risk in Brand Extension. International Journal of Commerce and Management, 21 (4), 410-427.

 

Statista (2019). eTravel Report. Statista Link: https://de.statista.com/statistik/studie/id/42170/dokument/etravel-report/

 

Sumaedi S., Bakti G. & Yarmen M. (2012). The Empirical Study Of Public Transport Passengers’ Behavioral Intentions: The Roles Of Service Quality, Perceived Sacrifice, Perceived Value, And Satisfaction (Case Study: Paratransit Passengers In Jakarta, Indonesia), International Journal For Traffic And Transport Engineering, 2(1), 83 – 97.

 

The Competitive Intelligence Unit (CIU) (January, 20, 2020). Plataforma de transporte y comida, adopción y preferencia. The Competitive Intelligence Unit. Link: https://www.theciu.com/publicaciones-2/2020/1/20/plataformas-de-transporte-y-comida-adopcin-y-preferencia

 

Wang, X., He, F., Yang, H., & Oliver Gao, H. (2016). Pricing strategies for a taxi-hailing platform. Transportation Research Part E: Logistics and Transportation Review, 93, 212–231. https://doi.org/10.1016/j.tre.2016.05.011.

 

Wang, Y. & Liao, Y. (2007). The conceptualization and measurement of m-commerce user satisfaction. Computers in Human Behavior, 23, 381–398. https://doi.org/10.1016/j.chb.2004.10.017

 

Wang, Y., Wang, S., Wang, J., Wei, J. & Wang, C. (2018). An empirical study of consumers’ intention to use ride‑sharing services: using an extended technology acceptance model. Transportation. https://doi.org/10.1007/s11116-018-9893-4

 

Weng, G. S., Zailani, S., Iranmanesh, M., & Hyun, S. S. (2017). Mobile taxi booking application service's continuance usage intention by users. Transportation Research Part D. Transport and Environment, 57,207–216.

 https://doi.org/10.1016/j.trd.2017.07.023.

 

Yang, A. (2009). Exploring adoption difficulties in mobile banking services. Canadian Journal of Administrative Sciences, 26 (2), 136–149. 10.1002/CJAS.102

 

Yang, C., Ye, Xiaofei, Y., Xie, J., Yan, X., Lu, L., Yang, Z., Wang, T. & Chen, J. (2020). Analyzing Drivers’ Intention to Accept Parking App by Structural Equation Model. Journal of Advanced Transportation. https://doi.org/10.1155/2020/3051283

 

Yang, K. (2005). Exploring factors affecting the adoption of mobile commerce in Singapore. Telematics and Informatics, 22 (3), 257–277.

 

Ye, Q., Cen, J., Chen, X. & Zhen, H. (2018). How taxi operation change in the development of e-hailing APPs: A case study in Shanghai, China. CICTP 2017: Transportation reform and change - equity, inclusiveness, sharing, and innovation – proceedings of the 17th COTA international conference of transportation professionals, (2167–2177). https://doi.org/10.1061/9780784480915.229.

 

Yu, T. & Fang, K. (2009). Measuring the Post-Adoption Customer Perception of Mobile Banking Services. CyberPsychology & Behavior. 12(1). https://doi.org/10.1089/cpb.2007.0209

 

Zeithaml, V., Varadarajan, P. & Zeithaml, C. (1988). The contingency approach: its foundations and relevancy to theory building and research in marketing, European Journal of Marketing, 22 (7), 37-64.

 

Zhang, W., Honnappa, H. & Ukkusuri, S. (2020). Modeling urban taxi services with ehailings: A queueing network approach. Transportation Research Part C: Emerging Technologies, 113, 332–349. https://doi.org/10.1016/j.trc.2019.05.036.