Evidence Summary
LIS Students at
a Japanese University Use Smartphones for Social Communication more often than
for Educational Purposes
A Review of:
Lau,
K. P., Chiu, D. K. W., Ho, K. K. W., Lo, P., & See-To, E. W. K. (2017).
Educational usage of mobile devices: Differences between postgraduate and
undergraduate students. The Journal of Academic Librarianship, 43(3), 201-208. https://doi.org/10.1016/j.acalib.2017.03.004
Reviewed by:
Stephanie
Krueger
Head,
Office of Specialized Academic Services
Czech
National Library of Technology
Prague,
Czech Republic
Email:
stephanie.krueger@techlib.cz
Received: 23 Feb. 2018 Accepted: 13 June 2018
2018 Krueger.
This is an Open Access article distributed under the terms of the Creative
Commons‐Attribution‐Noncommercial‐Share Alike License 4.0
International (http://creativecommons.org/licenses/by-nc-sa/4.0/),
which permits unrestricted use, distribution, and reproduction in any medium,
provided the original work is properly attributed, not used for commercial
purposes, and, if transformed, the resulting work is redistributed under the
same or similar license to this one.
DOI: 10.18438/eblip29412
Abstract
Objective
– To
discover how undergraduate (UG) and graduate (G; “postgraduate” [PG] in the
original article) students of library and information science (LIS) use mobile
devices and to understand preferences and perceived barriers to educational
use.
Design – Survey
questionnaire.
Setting – University
in Japan.
Subjects – Ninety
undergraduate students (30 male, 60 female) and 30 graduate students (13 male,
17 female). Nineteen additional recruits were excluded from the study due to
incomplete surveys. Almost all subjects (>98%) were born between 1982 and
2002.
Methods – Subjects
were recruited without incentives from one LIS department. An online survey was
conducted with the purpose of gathering information on how often devices were
used for various activities, perceived barriers to mobile learning (m-learning),
and demographic data. The survey was modeled on a 2015 study of LIS students in
Hong Kong, Japan, and Taiwan (Ko, Chiu, Lo, & Ho, 2015). The Mann-Whitley U
test was used to investigate possible significant differences between UG and G
responses.
Main Results –
94.2% of participants had smartphones with Internet access; both UG and G
subjects reported weekly to daily use for social communications (email, short
message service [SMS], chat, and social media) and for querying search engines.
Both UG and G subjects reported using finance and banking services less than
once a month. Other activities (shopping, finding locations, entertainment,
sports, tools and productivity software, casual reading, academic reading,
accessing reference materials, accessing libraries) for both groups fell within
the range of less than once per month to weekly use. Unlike G subjects, UG
subjects reported significant (p < 0.05) engagement with social media and
marginal (p < 0.10) engagement with accessing libraries, and productivity
tools.
In
terms of educational use, neither UG nor G subjects reported daily m-learning
behaviors, instead reporting monthly to weekly browsing of online information
and social networking sites, with far less (i.e., less than once a month)
engagement with professional articles, e-books, learning management platforms,
and several other activities (listening to podcasts, viewing videos, “other”).
UG subjects reported significant marginal (p < 0.10) engagement with “other”
materials, unlike G subjects. Library catalogs and databases were less likely
to be used when compared to reference sources, with UG and G subjects reporting
monthly or less use for these. When asked if they would use mobile library
services, respondents answered “maybe interested if available”, with UG subject
reporting significant marginal (p < 0.10) engagement vs. G subjects for
several of these services. Regarding productivity activities, both UG and G
subjects reported monthly or less use of note taking, word processing, and
scheduling tools. For communication and sharing activities, subjects reported
monthly or less activity for communicating with classmates, using email for
study-related issues, posting to discussions on learning management platforms,
posting or commenting about their studies on social networking sites, sending
photos or videos to social media, moving document files, and scanning Quick
Response (QR) codes. UG subjects were marginally (p < 0.10) more engaged in
communicating with classmates than G subjects.
Barriers
to m-learning were not considered “high” barriers, with “low” to “medium”
barriers for both UG and G subjects being small screen size, non-mobile format,
difficulty typing, challenges with authentication, no Wi-Fi, difficulty
reading, lack of specialized apps, and slow loading times.
Conclusion – This
study provides a snapshot of how participants used mobile devices at the time
the survey was conducted. Both UG and G subjects used their devices for social
communication more than for educational purposes.
Commentary
This
study sheds light on the question of how mobile devices are used in a
particular educational setting. It contributes to the multidisciplinary
literature regarding m-learning in education (Chee, Yahaya, Ibrahim, &
Hasan, 2017), as well as to research on the acceptance of mobile library
service technologies (Saravani & Haddow, 2015).
This
study fulfills the basic requirements for a user study (Booth & Brice,
2003). The tables summarizing activities are clearly presented and provide a
sense of which questions appeared in the original survey. The original survey
instrument is not included as an appendix and the citation to the prior survey
(Ko, Chiu, Lo, & Ho, 2015) is missing from the reference list, meaning that
the survey could not be replicated solely on the basis of this article.
Furthermore, information about the reliability and validity of the instrument
(e.g., results of reliability testing to measure internal consistency) is not
provided. Such information, together with more detail regarding survey
administration (including the time needed to the complete survey, as well as
whether informed consent was sought), would improve confidence in this study’s
findings and should be included in future studies.
The
authors note that they recruited “sufficient subjects” to perform the
Mann-Whitley U test, without stating
how they determined this (p. 206). As recognized by the authors, additional
investigation would be required to make any generalizations beyond this study
(p. 207).
It
would be difficult to apply findings from this study to practice because the
survey did not tie barriers of use to specific activities, and did not delve
into why some activities were performed more often than others. For example, it
is clear from the data presented that mobile library services were infrequently
accessed, but the reasons behind this are a matter of conjecture. Future
studies would be greatly enriched by linking questions about activities to
questions about barriers and context, including open-ended questions about
activity choices.
Future
research could also benefit from allowing subjects to provide commentaries
about perceived educational utility. For example, the “viewing video clips”
activity was included in the “general m-learning” table (p. 204). However, one
can imagine scenarios in which subjects watched non-educational videos.
Specifically describing how activities were assigned to the m-learning category
and more deeply examining the perspectives of the participants would strengthen
the arguments made about educational vs. non-educational use.
Another
interesting point of departure for future studies would be an exploration of
various types of learning taking place via mobile devices. For example,
informal learning can be defined as “any activity involving the pursuit of
understanding, knowledge or skill…without the presence of externally imposed
curricular criteria” (Bilandzic, 2013, p. 159). Might, therefore, reading about
an aspect of finance and banking on a smartphone represent “informal m-learning”
and therefore be educational? What do subjects think? Such questions were not
part of this study but could be considered in future investigations.
Overall,
LIS professionals planning their own local surveys can use this study as an
example and as a basis for comparison.
References
Bilandzic,
M. (2013). Connected learning in the library as a product of hacking, making,
social diversity and messiness. Interactive
Learning Environments, 24(1), 158-177. https://doi.org/10.1080/10494820.2013.825811
Booth,
A. & Brice, A. (2003). Clear‐cut?:
facilitating health librarians to use information research in practice. Health Information & Libraries Journal,
20, 45-52.
https://doi.org/10.1046/j.1365-2532.20.s1.10.x
Chee,
K. N., Yahaya, N., Ibrahim, N. H., & Hasan, M. N. (2017). Review of mobile
learning trends 2010-2015: A meta-analysis. Journal
of Educational Technology & Society, 20(2), 113-126. http://www.jstor.org/stable/90002168
Ko,
E. H. T., Chiu, D. K. W., Lo, P., Ho, & K. K. W. (2015). Comparative study
on m-learning usage among LIS students from Hong Kong, Japan and Taiwan. The Journal
of Academic Librarianship, 41(5),
567-577. https://doi.org/10.1016/j.acalib.2015.07.005
Lau,
K. P., Chiu, D. K. W., Ho, K. K. W., Lo, P., & See-To, E. W. K. (2017).
Educational usage of mobile devices: Differences between postgraduate and
undergraduate students. The Journal of Academic Librarianship, 43(3), 201-208. https://doi.org/10.1016/j.acalib.2017.03.004
Saravani,
S-J. & Haddow, G. (2015). A theory of mobile library service delivery. Journal of Librarianship and Information
Science, 49(2), 131-143. https://doi.org/10.1177/0961000615595854