=Paper=
{{Paper
|id=None
|storemode=property
|title=Implementing Technology Enhanced Learning to Impede the Declining Interest in Computer Science (CS) Studies and Careers in Europe
|pdfUrl=https://ceur-ws.org/Vol-709/paper12.pdf
|volume=Vol-709
|dblpUrl=https://dblp.org/rec/conf/ectel/Porta10
}}
==Implementing Technology Enhanced Learning to Impede the Declining Interest in Computer Science (CS) Studies and Careers in Europe==
https://ceur-ws.org/Vol-709/paper12.pdf
Implementing Technology Enhanced Learning to
impede the declining interest in Computer Science (CS)
studies and careers in Europe
Marcela Porta
Institute Télécom & Management SudParis and
Universitat Politecnica de Catalunya
{marcela.morales}@it-suparis.eu
Abstract. Technology Enhanced Learning (TEL) may have an important role in
the strategies for attracting and retaining talent in Computer Science (CS)
studies and careers. Contrary to the continuing growth of the informatics
industry in Europe the number of CS experts (students, graduates, teachers,
etc.) is declining [1]. This decline is producing negative consequences in the
technology field that affect other sectors like business and education. The
purpose of this PhD study is to determine if the strategic implementation of
TEL is an effective means to counteract the declining trend. The research will:
Identify the negative consequences of a declining interest in CS studies in
Europe; determine the factors which motivate young Europeans to pursue or
reject CS studies and careers; analyze CS curricula and how technology can
enhance teaching and learning of the unique skills required to become a
computer scientist, thus increasing the interest in CS studies and careers
amongst young Europeans.
Keywords-component: CS studies, learning methods, teaching methods;
Technology Enhanced Learning, CS management and economics.
1 Introduction
This paper presents progress in the PhD research “Implementing Technology
Enhanced Learning to impede the declining interest in Computer Science (CS) studies
and careers in Europe”. The investigation will be an economic study, contributing to
research in Technology Enhanced Learning which will be considered as a means to
prevent the negative impact of fewer CS trained professionals on the economy. The
paper is divided into seven parts: First, the formulation of the research question;
Second, the identification of current economic factors that justify the timeliness of
this research; Third, an overview of the state-of-the-art; Fourth, an overview of the
research methodology; Fifth a presentation of the research work underway; Sixth the
innovative nature of this study as compared to related research; Seventh, conclusions
and future work.
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�2 Formulation of the Research Question
Can TEL impede the declining number of young Europeans interested in
perusing CS studies and careers? Despite a growing demand for work in the
Information Technology (IT) sector, the number of students enrolled in courses which
prepare future professionals for these careers is decreasing [2]. Many studies have
attempted to identify the reasons for this decline, pointing out that the training for
skills required to work in information technology is not properly provided for in
current educational activities and the poor quality of teaching [3] is to blame.
Therefore we intend to investigate how technology might be deployed to enhance CS
education and motivate increasing numbers of students to enroll in these studies. The
research for this thesis is being conducted within the framework of a broader study
underway at the Universitat Politècnica de Catalunya which aims to create strategies
to attract and retain students in CS and among them that TEL can represent an
effective means. Based on this research, the faculty of economics wishes to identify
solutions for attracting students to CS which is primordial for the development of the
European economy.
3 Identification of the Significant Problems in the Field of
Research
There are several challenges related to the identification of TEL as a method to teach
CS classes to motivate young Europeans to study CS thus preventing the risk of
losing experts in the field and the negative consequences on the economy.
First, is the lack of scientific information determining the impact that a low number
of computer scientists might produce on the economy. Hence the first contribution
consists in identifying what would happen if the decline in the number of CS students
persists.
Second, although there are a certain number of studies that tackle the problem of
attracting talent to engineering in a general way, many of them only focus on gender
issues [3]; there is a lack of information showing the reasons why students do not feel
attracted to this field of study. Our research will provide a study among young
Europeans to clarify these reasons.
Third, some studies illustrate how CS curricula are not perfectly matched to the
skills required by practicing computer scientists [8]. Our study will identify the skills
that are unique to CS and how TEL is offering opportunities to acquire these
competencies.
4 State of the art: Outline of the problem
Technology plays a critical role throughout all industrial sectors in Europe. In France,
for example, people spent a total of 7,9 million Euros on technology in 2008 [4]. For
this reason, several investigations pointed out their concern about the number of
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�students enrolled in CS programmes. These studies emphasize the fundamental need
to attract students in order to provide the professional talents in information
technology required by the European economy [5, 6, 7, 8 and 9].
We suggest that identifying the reasons that prevent students from following CS
will contribute to better understanding and controlling this phenomenon [10]. Among
reasons identified in the literature: the degree of difficulty in the courses required to
become a computer scientist (e.g. Math), the teaching techniques that are not
perceived as ideal, and the lack of awareness about the crucial role that CS plays in
society and the economy.
On the other hand, previous investigations have demonstrated that TEL can be
implemented to enhance teaching and learning of almost any course, even courses like
Chinese poetry [11] or music [12]. We can thus assume that CS studies can also
benefit from teaching methods and alternatives provided by TEL.
There are already some initiatives to attract and retain talent to CS by sharing
technology experiences [13] and by creating teaching and learning methods to support
students with the help of information technologies such as effective video clips for
learning Web-languages (like HTML) [20]; or using 3D animation environments to
teach introductory CS courses [14].
5 Sketch of the Applied Research Methodology
The research is organized in the following way:
First, the context of the research work presents the official statistics revealing a
declining interest in CS studies in Europe [15]. Based on these results, a qualitative
investigation related to the negative consequences of this decline explains how this
rejection is affecting different industries in Europe. This study highlights the necessity
of finding solutions to protect CS careers and the benefits it represents for society [5].
Second, identifying the reasons why students reject this career by performing a
quantitative study. A survey was conducted by Telecom & Management SudParis,
and the Politechnique University of Cataluña with the participation of 26 European
countries. This survey makes it possible to draw up a list of the factors that prevent
students from choosing CS studies [18].
Third, compare and analyze different curricula in different fields in order to
identify the skills that are unique to CS. We plan to support this investigation with
qualitative studies organized in form of round tables and interviews among CS
students in order better define and identify these skills.
Finally, identify how TEL can contribute to the acquisition of these skills and
competencies and reviewing universities which are implementing this TEL
successfully in their CS curricula.
6 Research Work and Results Achieved
This section presents the preliminary results achieved in relation to the planned
methodology:
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�6.1 Context of the research work
The research achieved so far, demonstrates that there is a declining interest in CS
studies in Europe [15]. The point of departure of our investigation was the key
European Statistics published by Eurostat in 2008 which show a decline of CS studies
and we propose to take TEL into consideration as a means to attract students [1]. A
second analysis shows how this decline may be detrimental to the European economy
[5]. This investigation highlights the imbalance in the number of students choosing
CS as a domain of study in relation to the demand in industry pointing the impacts
this phenomenon is having in the economic, social, political and pedagogical fields.
The main results are listed below.
An increase in the price of local (EU) CS development: The economic model on
elasticity affirms that the price of a product is determined by its offer in the market
[16]. If the number of local technology developers decreases; then their products will
become more expensive and scarce while the demand remains constant. Thus, it is
crucial to maintain a number of experts in IT in order to keep development costs
down.
Migration of CS development: The increase in the price of IT industry and the
decrease of professionals to satisfy this demand is related to the initiative of the
companies that migrate their labor forces to countries outside Europe where
development is not only as efficient as in Europe, but also where there is a greater
available production capacity at a lower cost [5]. “The concern is that misplaced
pessimism will deter bright young people from pursuing careers in computing, and, in
turn, would erode the skills in a field that is crucial to the nation's economic
competitiveness” [6].
The need to learn cultures and languages from countries outside Europe:
Because of the growing migration, there is an increasing need to learn other cultures
and languages to succeed in negotiations with countries outside Europe. [7]. “As
access widens, unique educational modules, courses and programs are being designed
and evaluated throughout other regions, evidencing issues, challenges, opportunities
and initiatives related to this education” [18].
Changes in learning programs and curricula: European curricula need to be
strongly adapted in order to integrate the language exchanges and to reinforce the
management courses that are being needed by industry [7].
6.2 Identifying the reasons
In order to create strategies to avoid the negative consequences mentioned above, we
conducted a study to identify the motivations that both students and professionals
70
�have to reject CS studies. The study is ongoing1. At the time we are writing this paper
we have collected 170 responses from participants in 26 European countries [22]. The
important results of this research are listed below:
High degree of difficulty: The fact that CS requires a strong background in
mathematics and algorithms is a major fear which prevents students from enrolling.
Gender Gap: Women feel that scientific careers related to CS are difficult to
accomplish because of the time required, the lack of other women that will
accompany them throughout their career, the negative image the career has for many
women, etc. [8].
Misconceptions and lack of awareness about careers in CS: Almost 40% of the
students have no concept about the kind of jobs that computer scientist can hold in
industry and society [10, 19]. Teenagers have incorrectly stereotyped the career or do
not have clear models in their lives. Consequently they do not pursue the
corresponding degrees (CS and Computing Engineering) because they do not see how
it can be relevant for a future career [8].
7 Discussion: How is This Work Different from Others?
Some studies target strategies to attract talent to engineering; a large number of them
are directed to attract women to the CS field [18]. This work helps us get some ideas
about how to attract and retain people to this field of study. However, there are three
areas of research that are missing: First, there is a lack of references to understand the
possible consequences of a declining interest in CS and the negative impacts on the
economy. Second, the decline in CS is recognized in research, but the reasons for this
decline are not clarified. Third, the role of Technology Enhanced Learning as a
strategy to reverse the declining interest in CS has not been studied. This Ph.D.
investigation will contribute to these three areas.
8 Conclusions & Future Work
This document presented the declining interest in CS studies and its consequences,
followed by the reasons that cause this decline. Following the methodology presented
in this document, further investigations are needed to complete the work.
The next steps will be to identify the different skills needed to become a computer
scientist. As mentioned before, the comparison between curricula in different domains
will make this possible, and can be supported by round table interviews with the
participation of students.
After this, the investigation will be completed by analyzing what TEL can offer to
improve teaching and learning methods to acquire these skills.
1 http://www.marcelaporta.com/survey
71
�References
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