International Journal of Interactive Mobile Technologies (iJIM) – eISSN: 1865-7923 – Vol. 13, 6, 2019


Short Paper—Gender Differences in Perceptions of Conventional Video, Virtual Reality and Augmented… 

Gender Differences in Perceptions of Conventional Video, 
Virtual Reality and Augmented Reality 

https://doi.org/10.3991/ijim.v13i06.10487 

Amir Dirin (*), Ari Alamäki, Jyrki Suomala 
Haaga-Helia University of Applied Sciences, Helsinki, Finland  

amir.dirin@haaga-helia.fi 

Abstract—The user’s emotional involvement plays an important role in 
adopting new technologies. The level of engagement with and adoption of new 
digital applications depends on various personal, contextual, and emotional fac-
tors. In our study, we assessed the personal factors, such as gender differences, 
of perceiving and adopting technologies such as virtual reality (VR), augmented 
reality (AR), and conventional video. Furthermore, we assessed what kind of 
emotions are involved in and invoked by the context of new technologies. This 
is a quantitative study in which students were asked to perform experiments on 
VR, AR, and conventional videos. After the experiments, participants were 
asked to fill out a predefined survey about their emotional reactions to the ex-
periments. The results show, unlike the prior research, that female participants 
were more enthusiastic about the usage of new technologies than males. The us-
er experience of VR, AR and conventional videos triggered more positive emo-
tions among females than males. For practitioners, the results suggest that the 
audio-visual technologies could engage more females than males. For academ-
ics, this study provides further research on how to trigger users to adopt new 
audio-visual technologies.  

Keywords—Virtual Reality, Augmented Reality, Conventional Video, User 
Experience 

1 Introduction 

People have different desires and preferences when choosing new smart gadgets to 
use. These desires are mainly rooted in gender, personality, interest, values, and social 
setup (Etkin & Sela, 2014). Therefore, the design and development of a robust appli-
cation mandates that these issues be investigated thoroughly. Furthermore, the popu-
larity of mobile devices and the significant technological advancement in recent years 
have made these devices central tools in various fields, including in the marketing 
sector.  

Therefore, primitive advertisement approaches, such as using posters to promote 
products, no longer cover a wide audience (Dennis, Joško Brakus, & Alamanos, 
2013). This is rooted into two main reasons. First, primitive advertisement does not 
draw the attention of a digital audience (Marciniak, 2014). Second, the new digital 

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Short Paper—Gender Differences in Perceptions of Conventional Video, Virtual Reality and Augmented… 
 

generations prefer to use their mobile devices for most activities, including consuming 
advertisements, despite its occasional inconvenience. The demands and needs of ad-
vertising have shifted from traditional media to digital content presentation. To pro-
mote new services for the aforementioned generations, the designers must anticipate 
the needs of the users’ segments and their emotional engagement factors.  

Smart gadgets such as smartphones are continuously expanding and extending their 
reach with advanced technologies such as virtual reality (VR) and augmented reality 
(AR). VR and AR technology has been utilized in various industries for more than 
two decades. Their popularity has rapidly increased as VR and AR applications have 
become feasible in smart gadgets like smart phones (Mazuryk, Gervautz, & Smith, 
2013). For example, VR and AR are now used in educational environments (Hussein 
& Nätterdal, 2015), in psychotherapy (Diemer, Pauli, & Mühlberger, 2015), and in 
tourism (Guttentag, 2010). Less than two decades ago, VR and AR applications were 
feasible only behind closed doors with dedicated laboratories and powerful computers 
for testing and experimentation. Smart phones have shifted the application of VR and 
AR from laboratories to people’s pockets. However, those who are skeptical of new 
technologies are still cautious when it comes to experimenting with new technologies 
such as AR and VR. 

This study aims to reveal how new generations feel about using these technologies 
on a daily basis. Furthermore, we want to clarify whether there are gender differences 
in emotional perceptions of new technology. The results of this study will help the 
designers of VR and AR to consider the proper design approach for providing content 
in new technologies.  

2 Related Studies 

Research into gender differences in the use of VR and AR technologies is scant, 
but prior research on gender differences in the use of mobile technologies provide 
some insight into the phenomenon. Hamza and Shah (2014) found that males had 
higher perceived ease of use than the females when using mobile technology, while 
social norms influenced the female students more than the males in adopting mobile 
payment methods. They did not, however, find significant differences in the general 
adoption of mobile payment systems between genders. Wood and Li (2005) found 
that males were more willing to adopt new technologies than females. They studied 
differences by using the model of a technology adoption curve. They found that gen-
der affects one’s behavioral intention to use mobile internet, but not in all cases. 
Wang and Wang (2010) found that the effect of performance expectancy, in other 
words, expected benefits to job performance from the usage of mobile internet, was a 
stronger determinant of adoption for male users, whereas effort expectancy, which 
refers to ease of use, was significant for females. In investigating the adoption of 
mobile banking, Riquelme and Rios (2010) found that ease of use has a stronger effect 
on female users than male users, whereas the male users were more affected by per-
ceived usefulness. The female users were more impacted by social norms, which 
means that they were more likely to involve others in decision-making. Kongaut and 

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Short Paper—Gender Differences in Perceptions of Conventional Video, Virtual Reality and Augmented… 
 

Bohlin (2016) did not find differences between Swedish males and females in the use 
of mobile applications, except that males were more active online ticket shoppers, 
whereas females used more social-media applications. Li, Glass, and Redords (2008) 
studied gender differences in the adoption and use of mobile commerce services. They 
did not find significant differences between males and females, as the adoption rates 
and adopted stage patterns were similar. The only difference that they found was in 
the use of communication, information, and transaction services, in which males were 
more active. They concluded that males probably move through the adoption stages 
faster than females. From the viewpoint of mobile usage, males moving faster through 
adoption stages of mobile commerce services would suggest some differences in the 
use of VR and AR as well.  

Studies of gender differences in the acceptance of new technologies are not new. 
For example, Wang and Wang (2008) conducted a study on the gender differences in 
perceiving the playfulness of an online game. Venkatesh, Morris, and Ackerman 
(2000) conducted a study to investigate the gender differences in individual technolo-
gy adoption decision-making processes. Their findings indicate that men are more 
strongly inclined to use new technology. Goswami and Dutta (2016) conducted a 
literature review on the gender differences in the use of new technologies in various 
domains, such as education, banking, health care etc. Their findings reveal that gender 
has a significant impact on the intention to accept new technology.  

Companies apply various approaches to promote their products to consumers. Tra-
ditionally printed media were the main source of promotion, but in recent years, the 
popularity of smart devices has caused the promotion of new products to shift toward 
new methods such as text, audio, and video delivered to people’s pockets. In the latest 
wireless technologies advances such as AR and VR, consumers are enabled to engage 
emotionally with their applications, especially in tourism industries. AR (Sowmya, 
Parthipan, & Sriram Kumar, 2015) and VR (Negrotti, 2012) have been around for 
more than two decades. The applications of these technologies were mainly imple-
mented behind closed doors and with Personal Computers (Li, Yi, Chi, Wang, & 
Chan, 2018). However, in recent years, VR and AR have become also enabled on 
smart devices. Furthermore, 360 degree video clips (Corbillon, Simon, Devlic, & 
Chakareski, 2017) have also become feasible as a panorama view in smartphones. 

Outdoor activities in Finland are very popular (Alamäki & Dirin, 2015). The activi-
ties that the outdoor services’ providers offer cover a wide range of entertainment and 
sports services. They often promote their services both to national and international 
customers. To promote outdoors activities, the authors have conducted much research 
in this field, and some of the research results have been published in international 
journals such as (Alamäki, Dirin, Huotari, & Korhonen, 2016) , and (Alamäki & 
Dirin, 2014). Nature in every country has its own tourism industry, and often govern-
ments promote nature to tourists through advertisements. Geffroy, Samia, Bessa, and 
Blumstein (2015) conducted a global study on trends in nature-based tourism that 
indicated a decline in the number of nature-based tourists globally. Therefore, various 
attempts have been made to tackle this decline. For example, Wood, Guerry, Silver, 
and Lacayo (2013) have used social media to increase nature-based tourism. They 

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Short Paper—Gender Differences in Perceptions of Conventional Video, Virtual Reality and Augmented… 
 

shared photos to Flickr and then traced who, when, and which countries had visited 
the photos; they then collected this information and aggregated it as big data. 

3 Research Methodology and Processes 

3.1 Research questions 

In this study, we conducted an experiment with students of various degree pro-
grams. After each experiment, students were asked to fill out a hardcopy survey. The 
aim of this study was to investigate gender differences in user experiments with video, 
VR, and AR. This study aims to answer the following research question: 

Is there a relationship between gender and user experiments with video, VR, and 
AR? 

3.2 Participants 

This is quantitative research that we have conducted with students in the Infor-
mation Technology and in Tourism Management degree programs. The participants 
were of various nationalities and were both male (n=61) and female (n=39). The age 
of the students varied between 19 and 34 years old.  

3.3 Data gathering 

In each experiment, we prepared and printed a survey and handed it to students. 
After the survey, we compared the females’ and males’ differences in their emotional 
reactions using independent t-tests.  

The students were instructed to execute the experiments either individually or in a 
group of two or three members. The task order and the instructions were given as 
follows: 

• Access and watch the conventional videos 
• The access, use and watch 360 videos by using VR classes 
• Download the Arilyn AR application, scan the target image and interact with the 

AR virtual object 
• Answer the questionnaire independently 

The test users were able to test the experiments either on PCs or on smartphones. 
We provided a barcode for the experiment applications to make the experiment fast 
and easy for students. The content in the videos, VR and AR were marketing material 
and originally designed for marketing purposes. This created the same type of content 
for all experiments. Figure 1 shows an example of AR application. 

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Short Paper—Gender Differences in Perceptions of Conventional Video, Virtual Reality and Augmented… 
 

  
Fig. 1. Sample of the AR object that pop-upped from the target image.  

We have collected a significant amount of data, but in this paper, the focus is on 
gender difference in perceptions and behaviours of participants towards video, VR, 
and AR. In the survey, we asked students their age, nationality, study year, previous 
knowledge of the VR and AR experiment, and their emotional experience of the ex-
periment. The sample questionnaire that we utilized in this study is shown in Figure 2. 
For each emotional word, the statement was translated into numeric values (5 = fully 
agree, 4 = agree, 3 = neutral, 2 = disagree, 1 = completely disagree) for statistical 
analyses. 

 
Fig. 2. Sample questionnaire that students were asked to complete. 

For the AR experiments, we did not develop any new application but instead used 
Arilyn (“Arilyn,” 2019) and Arla’s (“Arla,” 2019) joint AR product. Students were 
asked to scan a cat figure in a milk packet and determine whether they could see a live 
cat on their smartphone’s screen.  

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Short Paper—Gender Differences in Perceptions of Conventional Video, Virtual Reality and Augmented… 
 

3.4 Data analysis 

The data set consisted of 100 completed questionnaires. The data analysis was 
conducted with IBM® SPSS® Statistics. The values of the variables in the Figure 2 
were encoded so that the more the participant agreed with the statement, the greater 
the value of it is (i.e. fully agree =5; complete disagree =1).  

4 Result 

Table 1 presents students’ perspective based on the emotional terms used in the 
survey for normal video, VR, and AR. The sample size was 100, of which n=61 were 
male and n=39 were female. SPSS ignored the values that have not been provided in 
the table. We collected a significant amount of data during the experiment; however, 
in this study, we only present the gender differences concerning the three aforemen-
tioned technologies. Table 1 presents the independent sample test of the gender differ-
ences collected through the questionnaire during the experiments. 

Table 1.  Independent sample test of the gender differences 
Technology Emotion Female Male t-value df1 sig. 

Conventional video  x sd x sd    
 Inspiring 3.56 0,72 3.218 0,83 -2,19 95 p < 0,05 
360 Video       
 Boring 1.92 0,10 2.555 1,25 -2.75 91.02 p < 0,01 
 Depressing 1.58 0,68 2.15 0,10 -3,11 95 p < 0,01 
 Exciting 3.84 0,92 3.42 1,12 2,01 95 p < 0,05 
 Inspiring 3.95 0,73 3.56 1,05 2,20 23.43 p < 0,05 
Augmented Reality Video       
 Boring 2.08 1,15 2.69 1,29 -2,37 94 p < 0,05 
 Depressing 1.68 0,84 2.12 1,11 -2,07 94 p < 0,05 
 Unpleasant 1.73 0,80 2.21 1,02 -2,40 93 p < 0,05 
 Exciting 3.65 0,95 3.13 1,16 2,40 94 p < 0,05 

4.1 Conventional Video Clip 

Statistically, females (n=39) felt that the conventional video was more inspirational 
(x = 3.56; sd = 0.72) than males (58) did (x = 3.22; sd = 0.83), t(95) = -2,187, p < 
.05).  

4.2 360 Video using VR glasses 

Females (n = 38) felt that the 360 video was statistically less boring (x = 1.92; sd = 
0.10) than males (n = 60) did (x = 2.56; sd = 1.25), t(91,02) = -2,75, p < .01. 

In addition, females (n = 38) felt that the 360 video was statistically less depressive 
(x = 1.58; sd = 0.68) than males (n = 59) did (x = 2.15; sd = 0,10), t(95) = -3,11, p < 
.01.  

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Short Paper—Gender Differences in Perceptions of Conventional Video, Virtual Reality and Augmented… 
 

Similarly, females (n = 38) felt that the 360 video was statistically more exciting (x 
= 3.84; sd = 0,92) than males (n = 59) did (x = 3.42; sd = 1,12), t(95) = 2.01, p < .05. 

Furthermore, females (n = 38) considered the 360 video to be statistically more in-
spiring (x = 3.95; sd = 0.73) than males (n = 59) did (x = 3.56; sd = 1,05), t(23.43) = -
2,20, p < .05. Finally, in the answer to the question about the intention of participants 
to share the 360 video, females (n = 38) showed statistically more intention to share 
the 360 video (x = 3.53; sd = 1.08) than males (n = 61) did (x = 2.97; sd = 1,224), 
t(97) = 2,31, p < .05. 

4.3 Augmented Reality Experiment 

The question concerning perceptions that AR is boring showed that females (n=38) 
felt that the AR video was statistically less boring (x = 2.08; sd = 1.15) than males (n 
= 58) did (x = 2.69; sd = 1.29), t(94) = -2,37, p < .05. Aligned with this is the finding 
that females (n = 38) felt that the AR video was statistically less depressive (x = 1.68; 
sd = 0.84) than males (x = 58) did (x = 2.12; sd = 1,11), t(94) = 2,07, p < .05. Addi-
tionally, females (n = 37) felt that the AR video was statistically less unpleasant (x = 
1.73; sd = 0.80) than males (n = 58) did (x = 2.21; sd = 1.02), t(93) = -2.40, p < .05. 
Furthermore, females (n = 37) felt that the AR video was statistically more exciting (x 
= 3.65; sd = 0.95) than males (n = 59) did (x = 3.13; sd = 1.16), t(94) = -2,40, p < .05.  

Overall the females experiences about the conventional video, the 360 video and 
AR-application were more positive than male’s experiences.  

5 Discussion 

The aim of this study was to examine students’ experiences with normal video, 
VR, and AR application usage. Furthermore, we aimed to study gender differences in 
emotional perceptions of new technology use. In addition, through this study, we tried 
to elaborate the students’ preferences regarding video, AR, and VR technology use 
rather than the content of the selected technologies.  

Among all participants, females considered conventional video more inspiring than 
males. Aligned with this is the finding that female participants considered the VR to 
be more inspiring than males. On the other hand, male participants considered the 360 
video to be more boring, less exciting, and more depressing than females. The main 
reason for the result is that the 360 clip mandates that the user wear VR glasses, which 
are often associated with many challenges (Guttentag, 2010). This result, surprisingly, 
is similar in the AR experiment. Males identified the AR as more unpleasant and 
depressive, and less exciting than females.  

The findings are not align with the research of Wood and Li (2005), who found that 
males were more willing to adopt new technologies than females. They concluded that 
males probably move through adoption stages faster than females, which is not sub-
stantiated by this study. However, our findings partly align with the studies of Kon-
gaut and Bohlin (2016) and Li, Glass, and Redords (2008), who did not find signifi-
cant gender differences in mobile technology adoption. Wang and Wang (2010) and 

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Riquelme and Rios (2010) found that the ease of use of new technology was a strong-
er determinant of adoption for females than for males. This finding is interesting from 
the perspective of this study, as VR and AR are not necessarily easy to use. In particu-
lar, VR glasses are difficult to use for the first time, and many users do not know how 
to set them up. Thus, gender differences in the use of VR and AR merit further re-
search. The use of VR and AR does not involve just browsing web content or clicking 
mobile apps, but it requires several interactive steps. In using VR glasses with their 
smartphones, users need to find a 360 video, click the cardboard-icon, and pair the 
smartphone to the VR glasses. While using an AR application, users need to down-
load the right mobile app to scan the target and be able to get content to jump out 
from the screen. This study suggests that adapting VR and AR applications to the 
educational context would require a special focus on technical support and ease of 
use.  

The results indicate that there are significant differences in male and female per-
ception of new technology use. Female students show more interest in new technolo-
gy use and experimentation. A previous study (Saballe, Le, & Dirin, 2018) has 
demonstrated that these experiments themselves change perceptions.We asked the 
participants to evaluate how different emotional concepts illustrate their emotional 
reactions in using conventional videos, VR and AR application. The findings show, 
unlike the prior research (e.g. Kongaut & Bohlin, 2016; Li, Glass & Redords, 2008; 
Wood & Li , 2005), that the videos, VR and AR caused more positive emotional re-
sponses to females than males. The emotional response to the new technology is im-
portant in adopting new technology to various purposes. Thus, the findings contribute 
to the many fields where the positive user experience is essential for the successful 
implementation. The digital service designer and marketers can utilize findings in 
designing VR and AR services that are targeted to the female customers. In addition, 
the findings suggest that females would prefer audio-visual and interactive technolo-
gies that could be an important knowledge in the career selection debate. The females 
may also prefer more VR and AR applications than other digital applications creating 
a new potential channel for marketers, educators, game developers and administrators 
to deliver and sell digital content and services.  

6  Conclusion 

This study has demonstrated that gender impacts the adoption of new technologies. 
This study does not confirm previous general findings about male capabilities to adopt 
new technologies. In our study, we found that females adopt AR applications, VR 
applications, and conventional video clips faster than male participants.  

The findings of this study are only valid in the context in which we conducted the 
study, so it is not feasible to draw a general conclusion. Furthermore, in this study, we 
were not able to assess what types of triggers the participants evaluated, the special 
features of tools or the digital content elements. This could have been clarified by 
conducting a follow-up study—for example, with interviews. Hence, we plan to ex-
tend the study with more participants in order to validate its findings.  

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7 Acknowledgements 

We would like to thank the Virtual Outdoors project (funded by EU agricultural 
and rural development fund) for the opportunity to conduct research in this field. 

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9 Authors 

Amir Dirin has a PhD in usability engineering from Aalto University in Finland. 
He is a principal lecturer in Business Information Technology Department at the Haa-
ga-Helia University of Applied Sciences. Amir has strong research background in 
mobile learning application design & development e.g., AR/VR/XR learning, adaptive 
learning, usability, and user experience of mobile learning application design and 
development. 

Ari Alamäki received a PhD in technology education in 1999, and currently he is a 
principal lecturer at Haaga-Helia University of Applied Sciences, Finland. His current 
research focuses on customer behavior in digital channels, digital tourism marketing, 
and business perspectives on big data analytics. His work has been published in both 
refereed scientific journals and practically oriented business journals and books. He 
also has over 12 years of experience in business consulting and software development. 
E-mail: ari.alamaki@haaga-helia.fi 

Jyrki Suomala is an adjunct professor, Principal Lecturer Jyrki Suomala (born 
1959) has over 24 years of research experience at the universities in Finland. In addi-
tion, he has been a visiting researcher at the University of California at Santa Barbara 
for a total period of three and half years. His main research interest is human’s deci-
sion making and choice in different contexts. Suomala applies cognitive science, 
behavioral economics and decision neuroscientific approach to his research projects. 
He has participated in various research projects funded by the Academy of Finland 
(UCRET project, 1996-2001; SOCA, 2003-2007) and the Ministry of Education 

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https://doi.org/10.3917/sim.102.0128
https://doi.org/10.21125/edulearn.2018.2481
https://doi.org/10.21125/edulearn.2018.2481
https://doi.org/10.1006/obhd.2000.2896
https://doi.org/10.1006/obhd.2000.2896
https://doi.org/10.1111/j.1467-8535.2007.00773.x
https://doi.org/10.1111/j.1467-8535.2007.00773.x
https://doi.org/10.1038/srep02976
https://doi.org/10.1038/srep02976
https://doi.org/10.1038/srep02976


Short Paper—Gender Differences in Perceptions of Conventional Video, Virtual Reality and Augmented… 
 

(STEMA project). He was principal investigator of NeuroService –project funded by 
TEKES, in which his research group study the neurophysiological and behavioral 
responses of consumers in the different authentic marketing messages by fMRI. He 
obtained his Ph.D. on Education in 1999 from the University of Jyväskylä (Fin-
land).He has published articles in international peer-refereed journals such as Europe-
an Journal of Innovation Management and Journal of Educational Computing Re-
search, Technology Innovation Management. He has established a new NeuroLab at 
Laurea University of Applied Sciences. He is currently studying neurophysiological 
and behavioural basis of human decision making and choice in different contexts. (e-
mail: jyrki.suomala@laurea.fi) 

Article submitted 2019-03-15. Resubmitted 2019-04-03. Final acceptance 2019-04-04. Final version 
published as submitted by the authors 

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