Improvements in bASES21: 21
st
-Century Skills Assessment Model
to K12
Lúcia Helena Martins-Pacheco
1a
, Leonardo Philippi Degering
1b
, Fernanda Mioto
1c
,
Christiane Annelise Gresse von Wangenheim
1d
, Adriano Ferreti Borgato
1e
and Giani Petri
2f
1
Universidade Federal de Santa Catarina, Brazil
2
Universidade Federal de Santa Maria, Brazil
mioto.f@gmail.com, gpetri@inf.ufsm.br
Keywords: 21
st
-Century Skills, Assessment, Questionnaire, Computer Science Education.
Abstract: Digital age has been impacted worldwide economy, human communication, knowledge access, democracy
and days by day citizen lives. Consequently, several international entities make strategies for educational
system and to empower people to labour market. One strategy has been to define what skills are important
develop in 21
st
-century. To introduce educational systems approaches that aim to develop 21
st
-century skills
it is necessary encompass how to teach, how to learn, and how to assess this personal development. Some
practices have been indicated that teaching computing in basic education could act synergistically with 21
st
-
century skills learning. So that, bASES21 is an instrument created to assess such skills. The first version was
tested with a group of 148 high school students. Statistical studies pointed out the need of expand the sample
size. Then in a second study sample size reach 560 students. New statistical analyses were done, and it was
proposed several changes in first model. The instrument upgraded can assess such skills with 56 questions
instead of 82, that were originally taken. These results can be very useful to ensure to attain necessary
reliability and validity and to make possible popularization in using this instrument in K12 school setting.
1 INTRODUCTION
In the last two decades, human society has been coped
with new challenges, especially related to the way to
deal with knowledge. The enormous increase in
machine throughput and distributed processing,
massive data creation and also higher speed and
processing capacity of the electronic devices,
associated to great popularization of smartphones and
personal computers, are allowing, even for a common
citizen, to access, to create, to disseminate
information and knowledge easily and quickly
worldwide.
These great technological possibilities have
become globalization, in fact, a reality. Even facts in
remote places could have a fast impact worldwide.
a
https://orcid.org/0000-0003-3552-4421
b
https://orcid.org/0000-0002-2364-2423
c
https://orcid.org/0000-0002-5263-5097
d
https://orcid.org/0000-0002-6566-1606
e
https://orcid.org/0000-0001-6280-2525
f
https://orcid.org/0000-0002-9884-8151
This context has a strong influence on the economy,
in the workforce, in consumer profiles, in democratic
practices, and the global organization of countries.
This new scenery brought up several doubts,
especially about the future: What must be taught and
learned to our youth? (Harari, 2018) Which kind of
knowledge will be more useful? What must they
know to enter the formal work market? What must
they know to practice democracy and citizenship? For
example, Szikora and Ali (2018) called attention to
the various dangers connected to smart phones, the
importance of data and the privacy of the public,
which would develop security conscious thinking.
Concerning to digital inclusion of people, subjects
must develop skills to take advantage of these
benefits (Pischetola, 2019). The endeavour is to know
Martins-Pacheco, L., Degering, L., Mioto, F., von Wangenheim, C., Borgato, A. and Petri, G.
Improvements in bASES21: 21st-Century Skills Assessment Model to K12.
DOI: 10.5220/0009581702970307
In Proceedings of the 12th International Conference on Computer Supported Education (CSEDU 2020) - Volume 1, pages 297-307
ISBN: 978-989-758-417-6
Copyright
c
2020 by SCITEPRESS – Science and Technology Publications, Lda. All rights reserved
297
which skills are essential and indispensable and how
to teach and learn them. In this sense, since the last
decade of the 20th century, several international
entities have tried to recognize and to define such
skills (Delors et al., 1996).
Citizens must incorporate
the flexibility that new technology demands to engage
in social changes, democratic processes,
communication flows, and employment
opportunities. Given the rapid rate of change and the
influence of technology, employees need to develop
21st-century digital skills to cope and thrive in this
changing society (van Laar et al., 2017).
Ananiadou and Claro (2009) consider that young
people are already experiencing the new forms of
socialisation and social capital acquisition that ICT
developments are contributing to. Their education,
both at school and at home, needs to provide them
with the social values and attitudes as well as with the
constructive experiences that will allow them to
benefit from these opportunities and contribute
actively to these new spaces of social life (p. 5).
As an example of international initiatives, there
are Partnership for 21st Century Skills - P21
1
and
Assessment and Teaching of 21st Century Skills
Group
2
- ATC21S (Binkley et al, 2011). Several skills
are frequently considered for many authors, for
example, creativity, critical thinking, problem-
solving, communication, teamwork, collaboration,
ICT proficiency, flexibility, proactivity, social
responsibility, and so on.
This scenario brought several studies to try to
define these skills and some instruments aiming to
measure and assess such skills. In this sense, in this
article, we present bASES21, which is a self-
assessment instrument to measure 21
st
-century skills
focus in the K12 Brazilian context. At first, we show
some definitions of 21
st
-century skills and their
approach to computer science education.
2 21
ST
-CENTURY SKILLS AND
COMPUTER SCIENCE
EDUCATION
Table 1 shows a summary of five approaches to 21
st
-
century skills and compares them (Care and Griffin,
2014). What is highlighted in grey shadow bold repre
sents a category of skills.
Another approach is Partnership for 21st Century
Skills – P21 – that also shows several details impor-
1
www.p21.org
2
www.atc.org
tant for assessment and measurement. The
Partnership for 21st Century Learning recognizes
that all learners need educational experiences in
school and beyond, from cradle to career, to build
knowledge and skills for success in a globally and
digitally interconnected world (P21, 2015 –
Framework Definitions).
OECD approach is concerning to a collaborative
problem-solving framework that also shows some
intersection with the other approaches. There has
been a marked shift from manufacturing to
information and knowledge services. Much of the
problem-solving work carried out in the world today
is performed by teams in an increasingly global and
computerised economy. However, even in
manufacturing, work is seldom conducted by
individuals working alone. Moreover, with the
greater availability of networked computers,
individuals are increasingly expected to work with
diverse teams spread across different locations using
collaborative technology
(OECD, 2013, p.3-4).
The approach Assessment and Teaching of 21st-
century skills group - ATC21S defined Binkley et al.
(2012) defined ten skills and identified into four
categories. Each skill is unfolded in detail in three
domains: knowledge, skills, attitudes/values/ethics.
These details are very important in identifying aspects
of assessment. ATC21S model for assessments of
21st-century skills, based on an analysis of
curriculum and assessment frameworks for 21st-
century skills developed around the world, identifies
ten important skills in four broad categories. This
model provides measurable descriptions of the skills,
considering knowledge, skills, and attitudes, values,
and ethics.
Gordon et al. (2009), sponsored by the European
Commission, created a significant document
concerned to lifelong learners defining keys
competences with connection with 21
st
-century skills.
The aim of the study is to provide a comparative
overview of policy and practice concerning the
development and implementation of key competences
in the education systems (…) of the European Union.
UNESCO approach (Delors et al., 1996)
is a
substantial document related to education for the 21
st
-
century which defined the four pillars of education as
learning to know, learning to do, learning to be and
learning to live together. There is a significant overlap
with 21
st
-century skills defined in other approaches.
It is possible to identify strong relations between
computer science (CS) education and 21
st
-century
skills. Digital competences encompass ICT and
information proficiency, collaborative work,
teamwork, and so on. These issues are central in
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298
Table 1: Comparison of 21
st
-century skills approaches based on Care and Griffin (2014).
P21
(2015)
LEARNING AND
INNOVATION:
INFORMATION, MEDIA
AND TECHNOLOGY:
LIFE AND CAREER:
Creativity; Critical
thinking; Problem
solving
Communication;
Collaboration
Literacy: Information;
Media; ICT
Flexibility and
Adaptability; Initiative and
Self-direction; Social and
Cross-cultural Skills;
Productivity and
Accountability; Leadership
and Responsibility.
OECD
(2015)
INTERACT IN
HETEROGENEOUS
GROUPS:
USE TOOLS
INTERACTIVELY:
ACT AUTONOMOUSLY:
Relate Well to Others;
Co-operate; Work in
Teams, Manage and
Solve Conflicts
Interactively: Use
Language, Symbols and
Texts; Use Knowledge,
Information and
Technology
Act within the Big Picture;
Form and Conduct Life
Plans and Personal
Projects; Defend and Assert
Rights, Interests, Limits
and Needs.
ATC21S WAYS OF THINKING: WAYS TO WORK: TOOLS TO WORK: LIVING IN THE WORLD:
(Binkley et
al., 2012)
Creativity and
Innovation; Critical
Thinking; Problem
Solving; Decision
Making; Learning to
Learn; Metacognition
Communication;
Collaboration
Information and ICT
Literacy
Citizenship (local/global);
Life and Career;
Responsability
(social/personal); Including
Cultural
(awareness/competence)
European
Commission
LEARNING TO LEARN:
(Gordon et
al., 2009)
Communication in
Mother tongue and
Foreign Languages
Mathematical, Science,
Technology and Digital
Competences
Social and Civic
Competences; Initiative and
Entrepreneurship; Cultural
Awareness and Expression
UNESCO
(Delors et
al., 1996)
LEARNING TO KNOW LEARNING TO DO LEARNING TO DO
LEARNING TO BE AND TO
LIVE TOGETHER
teaching and learning computer science. For example,
Gordon et al. (2009) defined: Digital competence
involves the confident and critical use of Information
Society Technology (IST) for work, leisure, and
communication. It is underpinned by basic skills in
ICT: the use of computers to retrieve, assess, store,
produce, present and exchange information, and to
communicate and participate in collaborative
networks via the Internet (p.45).
It is important to distinguish the difference
between skills and competence. According to
Ananiadou and Claro (2009), skill is the ability to
perform tasks and solve problems, while a
competence is the ability to apply learning outcomes
adequately in a defined context (education, work,
personal, or professional development (p. 8). For
them, competence is not limited to cognitive elements
(involving the use of. theory, concepts, or tacit
knowledge); it also encompasses functional aspects
(involving technical skills) as well as interpersonal
attributes (e.g., social or organizational skills) and
ethical values (p.8). Consequently, this broad vision
of competence clarifies that people that are involved
with computer science education, teaching or
learning, or even as a user or developer or designer
must be engaged in incorporated 21
st
-century skills.
Computer science and technological development
impact society all around the world, and the
workforce trained must have an ethical commitment
to their decisions.
We dare assert that 21
st
-century skills approaches
are especially effect of the digital age, approached
Improvements in bASES21: 21st-Century Skills Assessment Model to K12
299
people and provided new ways of communication and
knowledge access, practically available for everyone.
Practices particularly involved 21
st
-century skills as
creativity, innovation, critical thinking, problem-
solving, communication and collaboration (P21,
2017) are very useful for computer science students
and professionals. In this sense, van Laar et al. (2017)
identified key 21
st
-century skills or digital skills
dimensions resulting in a framework of seven core
skills: technical, information management,
communication, collaboration, creativity, critical
thinking and problem solving, and five contextual
skills: ethical awareness, cultural awareness,
flexibility, self-direction and lifelong learning.
Therefore, these issues encourage this present study
aiming to contribute to the development of 21
st
-
century skills in the K12 Brazilian educational
context.
3 bASES21 ASSESSMENT
MODEL
The model bASES21 (Assessing 21
st
-Century Skills),
began to be developed by Mioto (2018). After tests in
the first version, Degering (2019) expanded the
sample size and performed new statistical tests. Both
authors were under the supervision of the fourth one.
They developed this research as part of the bachelor
thesis.
Both studies began searching by state of the art by
means of a systematic mapping of literature (SML)
according to Petersen et al. (2015) methodology.
Mioto (2018) found eight models related to
assessment of 21
st
-century skills (Chai et al., 2015;
Rosen, 2015; Siddiq et al., 2017; Claro et al., 2012;
Rosen and Tager, 2014; Aesaert et al., 2014; Lau and
Yuen, 2014; Susnea and Vasiliu, 2016). These
models only assess one skill or a cluster of skills but
not all skills, as were defined by Binkley et al. (2011)
or by P21 (P21, 2015).
Mioto (2018), based on SML findings, to create
an instrument for 21
st
-century skills assessment. To
assess this instrument, she considered the
methodologies proposed by Basili et al. (1994),
Kasunic (2005), Beecham et al. (2005), Wohlin et al.,
The instrument was a questionnaire, written
originally in Brazilian Portuguese, composed of 82
questions, divided into 13 categories, which is shown
in Table 2. Each question was defined based on the
2012, DeVellis (2016) and Trochim and Donnely
3
https://repositorio.ufsc.br/handle/123456789/187851
(2008).
The instrument was a questionnaire, written
originally in Brazilian Portuguese, composed of 82
questions, divided into 13 categories, which is shown
in Table 2. Each question was defined based on the
showed references beside it. Binkley et al. (2011) and
P21 (P21,2015) supported a great number of
questions. This instrument is a self-assessment
questionnaire. Four points Likert scale is used with
these options: Totally Agree; Agree; Disagree;
Totally Disagree. It was designed for K12 Brazilian
students as target public. The model can be applied in
non-experimental studies using one-shot post-test
designs. Also, it can be used in quasi-experimental
studies by means of pre-test/post-test designs.
The assessment of the instrument consisted of the
application to 148 students in middle schools. After
that, statistical analysis was done based on the
collected data. The complete study is available in
Brazilian Portuguese
3
language.
Degering (2019) followed Mioto (2018) aim to
increase the size of the sample and improve the
quality of the instrument assessment. He used the
same methodology and redone the SML also
problem-solving, according to Petersen et al. (2015).
He found 13 models, eight covered by the first SML
added to 5 new ones (Ball et al., 2016; Osman et al.,
2010; Van Laar et al., 2018; Cevik, Senturk, 2019;
Mioto et al., 2019). The own bASES21 appeared and
was selected. Details of this SML are showed in
Mioto (2018) and Degering (2019). Spite of the
increasing of assessment 21
st
-century skills models
found in second SML, only Mioto et al. (2019)
proposed to assess a set bigger than others using as
main foundation Binkley et al. (2011).
The findings of the two SMLs showed that skills
related to ICT use are more frequent among models.
Also, there is no consensus concerning the 21
st
-
century skills classification. The instrument more
usual is a self-assessment questionnaire using a Likert
scale. These found instruments were statistically
assessed for validation. They presented good
statistical results or need to increase the sample size
for more consistent conclusions. Statistical tests in the
model proposed by Mioto (2018), in spite of a good
internal consistency among items, indicate
inconclusive validity (Ross, 2006). So, Degering
(2019) applied bASES21 to other groups extending
sample size. It is explained ahead in the sequence of
this document.
4 DATA ANALYSIS
Table 3 synthesizes the data collection. We highlight
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Table 2: bASES21 questionnaire version 1.0 - based on Mioto (2018) – free translate to English.
I - CREATIVITY AND INNOVATION:
1 I invent/imagine many things that do not yet exist. (Chai et al., 2015); (Petway et al., 2016); (Susnea and Vasiliu,
2016)
2 My ideas are useful (Chai et al., 2015)
3 I can solve problems in different ways. (Chai et al., 2015); (Kang et al., 2010)
4 I am a curious person. (Susnea and Vasiliu, 2016)
5 I am not embarrassed to talk about my ideas. (Susnea and Vasiliu, 2016)
6 I learn with my errors or when my ideas go wrong. (Binkley et al., 2011)
7 I need to im
p
rove m
y
ideas.
(
P21, 2015
)
II - CRITICAL THINKING, PROBLEM-SOLVING AND DECISION MAKING:
8 I compare different opinions/ideas to see which is the better. (Chai et al., 2015); (Binkley et al., 2011)
9 I make decisions according to the information that I have. (Binkley et al., 2011)
10 I like to ask and to answer questions to learn something new. (Kang et al., 2010); (Binkley et al., 2011); (IFL, 2015)
11 I listen to the ideas of my friends and consider them when I form my opinion. (Binkley et al., 2011)
12 I try to understand a problem before trying to solve it. (O’Neil and Schacter, 1997)
13 I choose and organize the material that I need when I am going to do something (homework, works, studies, etc.).
(O’Neil and Schacter, 1997)
14 I ask myself if I am doing my tasks well at school. (O’Neil and Schacter, 1997)
15 I make an effort when I do my school tasks. (O’Neil and Schacter, 1997)
16 I can ex
p
lain m
y
o
p
inions and decisions.
(
Chai et al., 2015
)
III - LEARN TO LEARN AND METACOGNITION:
17 I plan how to study (which tasks I am going to do in which days/time, etc.). (Chai et al., 2015))
18 If I have difficulty in a subject of a course, I spend more time studying this subject. (Chai et al., 2015)
19 I believe that I can learn everything that I want. (Binkley et al., 2011)
20 I like to learn new things. (Binkley et al., 2011)
21 I can kee
p
concentrated for a lon
g
time.
(
Binkle
y
et al., 2011
))
IV - COMMUNICATION:
22 I listen attentively to understand what others are saying. (Binkley et al., 2011)
23 Other people understand what I say. (Binkley et al., 2011)
24 When I read a text, I understand what I am reading. (Binkley et al., 2011)
25 I am not embarrassed to talk to an audience. (Binkley et al., 2011)
26 I like to say and to listen to different opinions. (Binkley et al., 2011)
27 I can ar
g
ue well in a discussion.
(
Binkle
y
et al., 2011
)
V - COLLABORATION AND TEAMWORK:
28 I like to work together with my colleagues and to solve problems. (Chai et al., 2015); (Kyllonen, 2012); (Petway et
al., 2016); (Kang et al., 2010)
29 I can find time to help other people. (Kyllonen, 2012)
30 I like to be the group leader. (Kyllonen, 2012); (Kang et al., 2010)
31 I always do my part when I work in a group. (Kang et al., 2010)
32 I can create a sequence of tasks in group work (Binkley et al., 2011)
33 I like to be a good example for others. (Binkley et al., 2011)
34 I respect differences among people from other regions, countries, and religions. (Binkley et al., 2011)
35 I commit to doing the necessary tasks to achieve a goal in group work. (P21, 2015)
36 In group work, my colleagues usually agree with my ideas. (Kang et al., 2010)
37 I do not easily give up. (Kyllonen, 2012); (Susnea and Vasiliu, 2016)
38 I usuall
y
finish the thin
g
s that I start.
(
Duckworth et al., 2007
)
VI - INFORMATION PROFICIENCY:
39 I can find the necessary information to do a task/ to solve a problem. (Lau and Yuen, 2014); (Aesaert et al., 2014);
(Binkley et al., 2011); (Kang et al., 2010)
40 I analyze if a piece of information is truthful or not. (Lau and Yuen, 2014); (Aesaert et al., 2014); (P21, 2015); (Binkley
et al., 2011)
41 I can change my opinion, depending on how much I know about the issue. (Siddiq, Gochyyev and Wilson, 2017)
42 I can explain why I change my opinion. (Siddiq, Gochyyev and Wilson, 2017)
43 I can interpret graphics and tables. (Claro et al, 2012); (Binkley et al., 2011))
44 I regard as wrong copying, sharing, or changing (information, text, pictures, etc.) that belong to other people without
their permission. (P21, 2015)
45 When I stud
y
, I search for more information be
y
ond m
y
notebook notes, didactical material
/
b
ooks.
(
Kan
g
et al., 2010
)
VII - ICT PROFICIENCY:
46 When I study, I access the internet to find useful information. (Aesaert et al., 2014); (Chai et al., 2015); (Kang et al.,
2010); (Lau and Yuen, 2014); (CSTA, 2016)
47 I use instant message Apps (WhatsApp, Messenger, etc.). (Lau and Yuen, 2014)
48 I know how to create documents (doc, pdf, spreadsheets, etc.) or presentations in the computer. (Chai et al., 2015)
49 I can use electronic devices (computer, internet, cellphone, etc.) to do my tasks. (Siddiq, Gochyyev and Wilson,
2017)
50 I understand the importance of taking care of my personal information on the internet. (Wangenheim, Alves, Weber,
2017
)
Improvements in bASES21: 21st-Century Skills Assessment Model to K12
301
Table 2: bASES21 questionnaire version 1.0 - based on Mioto (2018) – free translate to English. (cont.)
VIII - COMPUTATIONAL PROFICIENCY:
51 I can create programs in computers (games, apps, etc.). (CSTA, 2016)
52 I can identify the most important parts of a computer. (CSTA, 2016)
53 I know the risk of using a simple password. (CSTA, 2016)
54 I know how computers communicate on the internet. (CSTA, 2016)
55 I know how to identify, to test, and to correct an error in a computer program. (Tsai, Wang and Hsu,
2018
)
IX - LOCAL AND GLOBAL CITIZENSHIP:
56 I have the right to give my opinion. (Binkley et al., 2011)
57 I pay attention to the news that appears in the media (TV, social networks, sites, etc.). (Binkley et al.,
2011)
58 I respect that people can express different cultures, religions, lifestyle, and opinions. (Binkley et al.,
2011); (P21, 2015))
59 I speak/understand well another language (Spanish, French, etc.) beyond English. (P21, 2015)
60 I can establish a good relationship with people with personalities or interests different from my own.
(Kang et al., 2010)
61 I am friendl
y
and kind with new collea
g
ues in the classroom.
(
Kan
g
et al., 2010
)
X - PERSONAL AND SOCIAL RESPONSIBILITY:
62 I can learn many things from other people. (Siddiq, Gochyyev and Wilson, 2017)
63 I can teach something to other people. (Siddiq, Gochyyev and Wilson, 2017)
64 I make an effort to, as much as possible, fulfill the promises that I make. (Kang et al., 2010)
65 I treat people as I would like to be treated. (IFL, 2015)
66 I admit my errors, and I apologize. (Kang et al., 2010); (Petway et al., 2016)
67 I know that
g
overnment decisions can affect me in different wa
y
s.
(
P21, 2015
)
XI - LIFE AND CAREER:
68 I imagine where/in what I want to work when I grow up. (Binkley et al., 2011); (Kang et al., 2010))
69 I accept criticism even when I believe that I have done a good job. (Binkley et al., 2011))
70 I always do my homework. (Kyllonen, 2012); (Kang et al., 2010); (Petway et la., 2016))
71 When I get a low score in school, I try to understand the reason for this. (Kang et al., 2010)
72 I make a to-do list. ((Kang et al., 2010); (Kyllonen, 2012)
73 I can do my homework by myself. ((Duckworth et al., 2007); (Kyllonen, 2012)
74 I avoid as much as possible to talk or to use a cellphone during classes. (IFL, 2015)
75 I can adapt to the changes in my routine. (Binkley et al., 2011)
76 I can achieve the
g
oals that I create for m
y
self.
((
Binkle
y
et al., 2011
)
XII - HEALTH PROFICIENCY:
77 I understand what is necessary for a healthy life. (P21, 2015)
78 I know how to prevent common diseases. (P21, 2015)
79 I know how to take care not to catch a cold.
(
P21, 2015
)
XIII - ENVIRONMENTAL AWARENESS:
80 I know the causes of global warming. (P21, 2015)
81 I separate organic and recyclable trash. (P21, 2015)
82 I tr
y
not to take a lon
g
shower to save water.
(
P21, 2015
)
that the number of students in high school
encompasses 148 that came from the first study
(Mioto, 2018).
Mioto (2018) made a statistical analysis of the
data collected using a sample size equal to 148 high
school students. The consistency analyses base on
Cronbach alpha (Cronbach, 1951) shows a strong
consistency among questions with a range between
0.957 and 0.958. However, the validity of the
instrument was showed inconclusive by means of
polychoric correlation matrix analysis (Drasgow,
1986); (Cohen, 1988). Likely because the instrument
has a great number of questions. So. it pointed the
need for more studies and expansion of sample size.
Degering (2019) performed an analysis of the new
data collection. He excluded the sample of 166
undergraduate students to keep the goal of these
studies that is K12. Then it was calculated internal
consistency by means of Cronbach alpha coefficients
for each item. The result was that Cronbach alpha
coefficients were equal or above 0.93 that indicated a
very good consistency among items. Also, Cronbach
alpha of instrument was 0.95, and no item was above
this. This analysis means that no item must be
excluded to improve internal consistency (DeVellis,
2016). Instead of this second analysis has a sample
size bigger than the first one, the results were very
similar) in terms of internal consistency.
The calculations of correlations among items were
done aimed to find pieces of evidence concerning
convergent and discriminant validation (DeVellis,
2016) of the bASES21 instrument. The convergent
validity shows if items that must be related indeed are
related and discriminant validation shows if items that
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302
must be no related indeed are not related (Souza et al.,
2017). Through the polychoric correlation matrix and
Cohen coefficient analysis (Drasgow, 1986),
(Cohen,1988), it was possible to figure out that some
items must be included in a different category and
some could be excluded. Details of this analysis are
shown in Degering (2019). For example, items related
to Creativity and Innovation showed a low correlation
among them what could indicate that they do not
measure the same factor. On the other hand, the items
related to ICT proficiency showed good results
concerning the validity, which indicates that no
change is necessary.
Table 3: Synthesis of data collection.
SCHOOL DEGREE
1
ST
TO 5
TH
6
TH
TO 9
TH
HIGH SCHOOL
UNDERGRADUATE
Quantity 74 120 200 166
Sample size = 560 students
Age Range:8-19 years old
Average = 14.5 years Median = 15 years
Standard deviation = 2.71 years
In addition, it was performed a factorial analysis
by means of Cattell´s Scree Test (Cattell, 1966);
(Raîche et al., 2013). The results indicate that three or
four factors showed better results than 13. Therefore,
statistical analysis showed that the questionnaire
needs to be changed: some categories and items could
be excluded, and some items could be reorganized.
The summary of changes proposed by Degering
(2019) is shown in Table 4.
Degering (2019), based on exploratory factorial
analysis, proposed, instead of 13 categories (factors),
to regroup skills in four categories (factors): Learning
and Teamwork; Citizenships and Social
Responsibility; ICT Proficiency; Communication.
Also, 26 items were excluded due to low factorial
charge; or low relation to other items in the category
or because there is another similar item. Table 4
shows the changes proposed by Degering (2019), the
reorganization of items. We keep the original index
number of items to facilitate comparison. Discussion
4
http://agenciabrasil.ebc.com.br/educacao/noticia/2018-
09/mec-divulga-nesta-segunda-indice-de-qualidade-
do-ensino-basico (access 02042020)
and conclusion.
5 DISCUSSION AND
CONCLUSION
The Brazilian educational context of K12 is
challenging. The performance of the students in the
national examination is poor. Takahashi and Sadaña
(2018) consider that difficult insertion in the labor
market by the youth, are related to violence in society
and to poverty. Even government agencies
4
consider
that it is necessary to change public policies to
improve K12 education. In this context, initiatives
that promote student motivation and could aim to
prosperous future for youths are welcome. One
possibility is to take into account 21
st
-century skills in
special ICT and information proficiency. These
concerning is emphasized by several international
organization. To teach, to learn and to assess 21
st
-
century skills are important to make possible to
include these aspects educational system for social
development updating for this century. They are allies
of prosperity and citizenship because these skills
aggregate technical aspects, interpersonal aspects and
an ethical appeal in terms of behavior and attitudes.
Therefore, bASES21 could be an interesting
instrument to play a role in the Brazilian
K12Educational scenario. Mioto (2018) and
Degering (2019) followed a serious statistical
methodology that increases the reliability and validity
(Ross, 2006) of the instrument. New tests could bring
up new benefits in the instrument.
The improvements proposed in bASES21 allow
assessing with fewer questions. It tends to make an
easier answer in a shorter time. In addition, a self-
assessment instrument enables participants to get
awareness because it calls their attention to the skills.
It is important to have an appropriate instrument for
Brazilian reality. It could support educational
practices to promote 21
st
-century skills. Also, other
counties could adapt the instrument for their reality or
for opening new opportunities.
It is important to highlight that we did not find any
other instrument for assessing 21
st
-century skills
written in the Brazilian Portuguese language, so it
seems that it is very original. bASES21 could call the
attention of the educational system to approach the
development of 21
st
-century skills in K12. We believe
Our perspectives for future works are to perform new
tests in bASES21 and to publicize this study in the
Brazilian Portuguese language aiming to contribute to
bringing these issues as part K12 Brazil educational
policies.
Improvements in bASES21: 21st-Century Skills Assessment Model to K12
303
Table 4: bASES v2.0 according to suggestion of Degering (2019)
5
.
I - LEARNING AND TEAMWORK (21 questions)
10 I like to ask and to answer questions to learn something new. (Kang et al., 2010); (Binkley et al., 2011); (IFL, 2015)
12 I try to understand a problem before trying to solve it. (O'Neil and Schacter, 1997)
13 I choose and organize the material that I need when I am going to do something (Homeworks, works, studies, etc.).
(O'Neil and Schacter, 1997)
14 I ask myself if I am doing my tasks well at school. (O'Neil and Schacter, 1997)
15 I make an effort when I do my school tasks. (O'Neil and Schacter, 1997)
17 I plan how to study (which tasks I am going to do in which days/time, etc.). (Chai et al., 2015)
18 If I have difficulty in a subject of a course, I spend more time studying this subject. (Chai et al., 2015)
20 I like to learn new things. (Binkley et al., 2011)
21 I can keep concentrated for a long time. (Binkley et al., 2011)
22 I listen attentively to understand what others are saying. (Binkley et al., 2011)
31 I always do my part when I work in a group (Kang et al., 2010)
33 I like to be a good example for others. (Binkley et al., 2011)
35 I commit to doing the necessary tasks to achieve a goal in group work. (P21, 2015)
37 I do not easily give up. ((Kyllonen, 2012); (Susnea and Vasiliu, 2016))
38 I usually finish the things that I start. (Duckworth et al., 2007)
39 I can find the necessary information to do a task/ to solve a problem. (Lau and Yuen, 2014); (Aesaert et al., 2014);
(Binkley et al., 2011); (Kang et al., 2010))
70 I always do my homework. ((Kyllonen, 2012); (Kang et al., 2010); (Petway et al., 2016))
71 When I get a low score in school, I try to understand the reason for this. (Kang et al., 2010)
72 I make a to-do list. ((Kang et al., 2010); (Kyllonen, 2012))
74 I avoid as much as possible to talk or to use a cellphone during classes. (IFL, 2015)
76 I can achieve the goals that I create for myself. (Binkley et al., 2011)
II - CITIZENSHIPS AND SOCIAL RESPONSIBILITY (16 questions)
6 I learn with my errors or when my ideas go wrong. (Binkley et al., 2011)
26 I like to say and to listen to different opinions. (Binkley et al., 2011)
44 I regard as wrong copying, sharing, or changing (information, text, pictures, etc.) that belong to other people without
their permission. (P21, 2015)
56 I have the right to give my opinion. (Binkley et al., 2011)
58 I respect that people can express different cultures, religions, lifestyle, and opinions. (Binkley et al., 2011); (P21,
2015))
60 I can establish a good relationship with people with personalities or interests different from my own. (Kang et al.,
2010)
61 I am friendly and kind with new colleagues in the classroom. (Kang et al., 2010)
62 I can learn many things from other people. (Siddiq, Gochyyev and Wilson, 2017)
63 I can teach something to other people. (Siddiq, Gochyyev and Wilson, 2017)
64 I make an effort to, as much as possible, fulfill the promises that I make. (Kang et al., 2010)
65 I treat people as I would like to be treated. (IFL, 2015)
66 I admit my errors, and I apologize ((Kang et al., 2010); (Petway et al., 2016))
67 I know that government decisions can affect me in different ways. (P21, 2015)
77 I understand what is necessary for a healthy life. (P21, 2015)
78 I know how to prevent common diseases. (P21, 2015)
79 I know how to take care not to catch a cold. (P21, 2015)
5
Original instrument in the Brazilian Portuguese language
CSEDU 2020 - 12th International Conference on Computer Supported Education
304
Table 4: bASES v2.0 according to suggestion of Degering (2019). (cont.)
III - ICT PROFICIENCY (11 questions)
40 I analyze if a piece of information is truthful or not. (Lau and Yuen, 2014); (Aesaert et al., 2014); (P21, 2015);
(Binkley et al., 2011)
43 I can interpret graphics and tables. (Claro et al, 2012); (Binkley et al., 2011)
46 When I study, I access the internet to find useful information. (Aesaert et al., 2014); (Chai et al., 2015); (Kang et
al., 2010); (Lau and Yuen, 2014); (CSTA, 2016)
47 I use instant message Apps (WhatsApp, Messenger, etc.) (Lau and Yuen, 2014)
48 I know how to create documents (doc, pdf, spreadsheets, etc.) or presentations in the computer (Chai et al., 2015)
49 I can use electronic devices (computer, internet, cellphone, etc.) to do my tasks (Siddiq, Gochyyev and Wilson,
2017)
50 I understand the importance of taking care of my personal information on the internet (Wangenheim, Alves and
Weber, 2017)
52 I can identify the most important parts of a computer. (CSTA, 2016)
53 I know the risk of using a simple password. (CSTA, 2016)
54 I know how computers communicate on the internet. (CSTA, 2016)
55 I know how to identify, to test, and to correct an error in a computer program. (Tsai, Wang and Hsu, 2018)
IV - COMMUNICATION (8 questions)
5 I am not embarrassed to talk about my ideas. (Susnea and Vasiliu, 2016)
16 I can explain my opinions and decisions. (Chai et al., 2015)
23 Other people understand what I say. (Binkley et al., 2011)
24 When I read a text, I understand what I am reading. (Binkley et al., 2011)
27 I can argue well in a discussion. (Binklet et al., 2011)
36 In group work, my colleagues usually agree with my ideas. (Kang et al., 2010)
42 I can explain why I change my opinion. (Siddiq, Gochyyev and Wilson, 2017)
59 I speak/understand well another language (Spanish, French, etc.) beyond English. (P21, 2015)
ACKNOWLEDGMENTS
The authors would like to thank Renata Martins
Pacheco for her help with formatting and reviewing
the English version of the final text.
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