Information and Communication Technology (ICT) has become an important
part of most organizations and businesses these days (Zhang & Aikman,
2007). The education sector has not been left behind. Computers began to be
placed in schools in the early 1980s in some developed countries, and several
researchers suggest that ICT will be an important part of education for the
next generation. Modern technology offers many means of improving teaching and
learning in the classroom (Lefebvre, Deaudelin & Loiselle, 2006). New
technologies have the potential to support education across the curriculum and
provide opportunities for effective communication between teachers and students
in ways that have not been possible before (Dawes, 2001). ICT in education has
the potential to be influential in bringing about changes in ways of teaching.
In this chapter the researcher will explore existing literature on how
ICTs can be used in the training of teachers and possible shortcomings of the
process.
Technology and Early
Childhood
The definition
of technology tools encompasses a broad range of digital devices such as
computers, tablets, multi-touch screens, interactive whiteboards, mobile
devices, cameras, DVD and music players, audio recorders, electronic toys,
games, e-book readers, and older analogue devices still being used such as tape
recorders, VCRs, VHS tapes, record and cassette players, light tables,
projectors, and microscopes.
Young children
live in a world of interactive media. They are growing up at ease with digital
devices that are rapidly becoming the tools of the culture at home, at school,
at work, and in the community (NAEYC 2012). Technology tools for communication,
collaboration, social networking, and user-generated content have transformed
mainstream culture. In particular, these tools have transformed how parents and
families manage their daily lives and seek out entertainment, how teachers use
materials in the classroom with young children and communicate with parents and
families, and how we deliver teacher education and professional development (Lefebvre, Deaudelin & Loiselle, 2006).
The pace of change is so rapid that society is experiencing a disruption almost
as significant as when there was a shift from oral language to print literacy,
and again when the printing press expanded access to books and the printed
word. The shift to new media literacies and the need for digital literacy that
encompasses both technology and media literacy will continue to shape the world
in which young children are developing and learning (Linebarger &
Piotrowski 2009; Flewitt 2011).
The prevalence
of electronic media in the lives of young children means that they are spending
an increasing number of hours per week in front of and engaged with screens of
all kinds, including televisions, computers, smartphones, tablets, handheld
game devices, and game consoles (NAEYC 2012). The distinction among the
devices, the content, and the user experience has been blurred by multi-touch screens
and movement-activated technologies that detect and respond to the child’s
movements. With guidance, these various technology tools can be harnessed for
learning and development; without guidance, usage can be inappropriate and/or interfere
with learning and development.
There are concerns about whether young children should have access to
technology and screen media in early childhood programs.
Several
professional and public health organizations and child advocacy groups
concerned with child development and health
issues such as obesity have recommended that passive, non-interactive technology and screen media not be used in
early childhood programs and that there be no screen time for infants and
toddlers.
Technology and
interactive media are tools that can promote effective learning and development
when they are used intentionally by early childhood educators, within the
framework of developmentally appropriate practice, to support learning goals
established for individual children (NAEYC 2009). The framework of
developmentally appropriate practice begins with knowledge about what children
of the age and developmental status represented in a particular group are
typically like. This knowledge provides a general idea of the activities,
routines, interactions, and curriculum that should be effective. Each child in
the particular group is then considered both as an individual and within the
context of that child’s specific family, community, culture, linguistic norms,
social group, past experience (including learning and behaviour), and current
circumstances (www.naeyc.org/dap/core; retrieved November 2, 2012).
Children’s experiences
with technology and interactive media are increasingly part of the context of
their lives, which must be considered as part of the developmentally
appropriate framework. To make informed decisions regarding the intentional use
of technology and interactive media in ways that support children’s learning
and development, early childhood teachers and staff need information and
resources on the nature of these tools and the implications of their use with
children.
Approaches to ICT integration in Teacher Education
Use of ICT within teacher training
programs around the world is being approached in a number of different ways
with varying degrees of success (Khirwadkar, 2011). These approaches were
subsequently described, refined and merged into following approaches:
1. ICT
skills development approach: Here importance is given to providing
training in use of ICT in general. Student teachers are expected to be skilled
users of ICT for their daily activities. Knowledge on various software, hardware
and their use in educational process is provided.
2. ICT
pedagogy approach: Emphasis is on integrating ICT skills in a
respective subject. Drawing on the principles of constructivism, pre-service
teachers design lessons and activities that centre on the use of ICT tools that
will foster the attainment of learning outcomes. This approach is useful to the
extent that the skills enhance ICT literacy skills and the underlying pedagogy
allows students to further develop and maintain these skills in the context of
designing classroom- based resources.
3. Subject-specific
approach: Here ICT is embedded into one’s own subject area. By this
method, teachers/subject experts are not only exposing students to new and
innovative ways of learning but are providing them with a practical
understanding of what learning and teaching with ICT looks and feels like. In
this way, ICT is not an 'add on' but an integral tool that is accessed by
teachers and students across a wide range of the curricula.
4. Practice
driven approach: Here emphasis is on providing exposure to the use
of ICT in practical aspects of teacher training. Focus is on developing lessons
and assignments. Using ICT and implementing it in their work experience at
various levels provides students an opportunity to assess the facilities
available at their school and effectively use their own skills.
Thus, ICT in
teacher training can take many forms. Teachers can be trained to learn how to
use ICT tools. ICT can be used as a core or a complementary means to the
teacher training process (Collis & Jung,
2003). The various ways in which ICT teacher training efforts could be
classified into four categories are shown below in Figure 1.
From the above suggested approaches, regarding ICT as
a core component at the pre-service level, integration of all approaches would
help in developing proper attributes among prospective teachers. There should
be joint efforts of educators and prospective teachers in implementing and
sharpening ICT skills. Whatever approach is followed in educational
institutions to develop knowledge about ICT, it has inherent limitations.
Coupled with other reasons, we are not making student teachers fully confident
in using ICT in their daily classroom activities. As reported by Larose F. in
their study, the level of computer literacy of the teaching staff is
satisfactory but there is little transfer of these competencies to teaching
practices (Larose F., et al. 1999).
Efforts are required on the part of teachers to make use of the available
facilities for the best use in teaching /learning.
Barriers to Integration of ICT into Education
The act of integrating
ICT into teaching and learning is a complex process and one may encounter a
number of difficulties. According to Becta (2004) the barriers to integrating
ICT in education can be grouped as teacher-level barriers such as lack of time,
lack of confidence and resistance to change or school-level barriers such as
lack of effective training in solving technical problems and lack of access to
resources.
Teacher-level barriers
Lack
of teacher confidence:
One barrier that prevents teachers from using ICT in their teaching is
lack of confidence. Some studies have investigated
the reasons for teacher’s lack of confidence with the use of ICT. Beggs (2000)
asserted that teachers’ “fear of failure” caused a lack of confidence.
Balanskat et al (2006) on the other hand found that limitations in teachers’
ICT knowledge makes them feel anxious about using ICT in the classroom and thus
not confident to use it in their teaching. Becta (2004) also concluded that
many teachers, who do not consider themselves to be well skilled in using ICT
feel anxious about using it in front of a class of children who perhaps know
more than they do. Many teachers are particularly afraid of entering the
classroom with limited knowledge in the area of ICT with their students knowing
that this was the case. Lack of confidence and experience with technology
influence teachers’ motivation to use ICT in the classroom (Balanskat et al
2006).
On the other hand,
teachers who confidently use technologies in their classrooms understand the
usefulness of ICT. Teachers who have confidence in using ICT identify that
technologies are helpful in their teaching and personal work and they need to
extend their use further in the future (Bingimlas, 2009).
Lack
of teacher competence: Another barrier which is directly
related to teacher confidence, is teachers’ competence in integrating ICT into
pedagogical practice (Becta, 2004). Newhouse (2002) found that many teachers
lacked knowledge and skills to use computers and were not enthusiastic about
the changes and integration of supplementary learning associated with bringing
computers into their teaching practices. Current research has shown that the
level of this barrier differs from country to country. In the developing
countries, teachers’ lack of technological competence is a main barrier to
their acceptance of ICT (Pelgrum, 2001; Al-Oteawi, 2002). According to Blanskat
(2006), in Denmark, many teachers still choose not to use ICT and media in
teaching situations because of their lack of ICT skills rather than for
pedagogical reasons.
Resistance
to change and negative attitudes: Teachers’ attitudes and
an inherent resistance to change are a significant barrier to the integration
of ICT into education (Balanskat et al, 2006). Watson (1999) argued that
integrating new technologies into educational settings requires change and
different teachers will handle this change differently. According to Watson,
considering teachers’ attitudes towards the new technologies and to change is
important because teachers’ beliefs influence what they do in classrooms.
According to Becta (2004), one key area of teachers’ attitudes towards the use
of technologies is their understanding of how these technologies will benefit
their teaching and their students’ learning. Cox et al (1999) found that teachers
are unlikely to use new technologies in their teaching if they see no need to
change their professional practice. They showed that teachers who resist change
are not rejecting the need for change but lack the the necessary education in
accepting the changes and are given insufficient long-term opportunities to
make sense of the new technologies for themselves.
School level barriers
Lack
of time: The problem of lack of time exists for teachers in
many aspects of their work as it affects their ability to complete tasks, lack
of time to plan technology lessons, explore the different internet sites or
look at various aspects of educational software (Becta, 2004). Teachers are
also pressed for time to locate internet advice, prepare lessons, explore and
practise using the technology, deal with technical problems and receive
adequate training.
In Kenya most teachers
teach from 7:00 A.M to 5:00 P.M and the average number of class sessions is
twenty hours per week. Both teachers and students have limited hours during the
day to work on integrating ICT into ECD teacher training. Teachers also take
much more time to design projects that include ICT than to prepare traditional
lessons.
Lack
of effective training: There are not enough training
opportunities for teachers in the use of ICTs in a classroom environment. According
to Becta (2004) the issue of training is certainly complex because it is
important to consider several components to ensure the effectiveness of the
training. These were time for training,
pedagogical training, skills training and an ICT use in initial teacher
training.
Providing pedagogical
training for teachers, rather than simply training them to use ICT tools, is an
important issue (Becta, 2004). If teachers are to be convinced of the value of
using ICT in their teaching, their training should focus on the pedagogical
issues. Many teachers courses focus on teachers acquiring basic ICT skills and
did not often teach teachers how to develop the pedagogical aspects of ICT.
Lack
of accessibility: Pelgrum (2001) identifies from his
research the main obstacles to the
accessibility of ICTs inn schools. These were insufficient numbers of
computers, insufficient peripherals such as printers, insufficient numbers of
copies of software and insufficient simultaneous internet access. However,
Balanskat et al (2006) argues that the accessibility of ICT resources does not
guarantee its successful implementation in teaching, and this is not merely because
of the lack of ICT infrastructure but also because of other barriers such as
lack of high quality hardware, suitable educational software and access to ICT
resources. Poor choices of hardware and software and a lack of consideration of
what is suitable for classroom teaching are problems facing many teachers.
Lack
of technical support: Lack of technical assistance is one of the top barriers
to ICT us in education. Without both good technical support in the classroom
and whole-school resources, teachers cannot be expected to overcome barriers
preventing them from using ICTs (Lewis, 2003; Pelgrum, 2001). These technical
barriers may include waiting for websites to open, failing to connect to the
internet, computers and printers malfunctioning and teachers having to work on
old computers. Technical barriers impede the smooth delivery of the lesson or
the natural flow of the classroom activity. Technical faults discourage
teachers from using ICT in their teaching because of fear of equipment breaking
down during a lesson (Bingimlas, 2009).
Other barriers
identified by a wide range of other researches include lack of computers, lack
of quality software, lack of time, technical problems, teachers’ attitudes
towards computers, poor funding, lack of teacher confidence, resistance to
change, poor administrative support, lack of computer skills, poor fit with the
curriculum, lack of incentives, scheduling difficulties, poor training
opportunities and lack of skills on how to integrate ICT in education.
Benefits of Integrating Technology in Education
The benefits of
technology in education have been lauded for many years, from
Thomas Edison’s
1910 proclamation that film would transform education, making books obsolete
(Israel, 1998, p. 442) to the most recent phenomenon of using the Internet for instructional
purposes. Large sums of money have been spent over the years on the researching
and investment of new technologies for education, such as the 170 million
dollars spent in the 1950’s on testing the use of television for educational
purposes by the Ford
Foundation in
the US, to the more recent investments in computer and networking
infrastructure in schools which saw 40 billion dollars spent in the decade leading
up to 2003 alone. With so much promised and invested, the question begs as to
what the benefits of using technology in education are. Saba A. (2009)
identifies some of the benefits of using technology in education as the
following:
Technology Improves Student Achievement on Tests
There is
mounting evidence that technology improves student achievement on tests in both
core subject areas as well as general knowledge. One of the major areas in
which greater achievement has been seen is in math.
Evidence that
computers in education lead to improved achievement is not only found in the
subject of mathematics. Significantly higher test scores and grades for
writing, English-language arts, mathematics, and overall Grade Point Averages
(GPAs) were found among students who used technology in their study (Gulek,
2005).
Gains in test
achievement are not only seen as a result of using technology to study, but
also in the use of technology for assessment, particularly for students with
special needs.
Students that
have physical and learning disabilities may underperform on tests not because
they have not mastered the content, but possibly because of the format through
which the test is administered (Dolan, 2005).
Technology Improves the Quality of Student Work
Research
supports that technology has the potential to improve quantitative assessment
performance in all curriculum subjects. However, there is also mounting
evidence that technology not only has a quantitative advantage over traditional
methods, but also leads to qualitative improvements; resulting in
higher-quality student work.
The Harvest Park
Middle school found that “students who use computers when learning to write are
not only more engaged and motivated in their writing, but also produce work
that is of greater length and higher quality, especially at the secondary
level” (Gulek, 2005, pg. 29).
Improvement in
writing when utilizing technology is especially evident with regard to students
with special needs and low-achievers. Such students appear to improve even more
than both average students and high-achievers when doing so via word processor
rather than with conventional Instructional methods (Hannafin, 1987).
Technology Benefits Students with Special Needs
Improved writing
is not the only area in which students with special needs benefit from
technology. One study found that students with Dyslexia improved significantly
in reading ability when a computer remediation program, Fast ForWord Language,
was used and that in some cases dyslexic student scores were raised into the
normal range (Temple, 2003). It was found that such remediation led to
“improved language, reading performance and increased activation in multiple
brain regions during phonological processing” (Temple, 2003).
Technology Benefits At-Risk Students
Another group
that benefits greatly from learning with technology is at-risk students.
The Pittsburgh
(PUMP) study found that students that may normally be disruptive in the classroom
are more engaged and cooperative when using technology to learn (Koedinger, 1997).
It concluded that technology makes them more engaged and leads to better
learning and better attitudes towards learning.
Technology Improves Attitudes towards Learning
Many research
studies have found that most students prefer learning with technology, which in
turn leads to a better attitude towards learning as well as giving them more
confidence. In the Cognitive Tutor study, students were found to be more likely
to say that mathematics is useful outside the academic context and to feel more
confident in mathematics than students in traditional classes (Morgan, 2002).
Students in the Freedom to Learn study were found to believe that technology
“made it easier to do school work, made them more interested in learning, and
would help them get better jobs in the future” (Lowther, 2007). The students
with special needs in the Fast ForWord study, similarly, felt that they did better
on computer based tests and nearly all recommended the program for other
students (Dolan, 2005).
Although many
studies find that student attitude towards learning improves using technology,
some studies have not found significant difference in student attitude or motivation
(Funkhouser, Winter 2003). However, most research tends to support the correlation
of improved attitude with technology use.
Technology Provides Individualized Learning
One aspect which
may contribute to improved attitude towards learning is that many uses of
technology in learning allow for individualized learning. Computer Aided Instruction,
especially when used for drill and practice as a tool for teaching in a
traditional sense, allows students to take control of the rate of learning and
helps them to avoid embarrassment by allowing them to learn and make mistakes
in a non-public manner. Students know right away that they are making progress
and having success at a challenging task. Further, because the system does not
make a big deal out of errors, students do not feel the social stigma
associated with making an error in class or on homework. Errors are a private
event that are usually quickly resolved and the student is then back to making
progress. (Koedinger, 1997)
Moreover, such
computer assisted instruction provides feedback immediately which leads to reductions
in learning time (Koedinger, 1997). This is very likely to be a key element in making
students feel more confident as well as leading to better attitudes towards
learning.
Such feedback reduces
student frustration and provides a sense of accomplishment (Koedinger, 1997).
Teachers also
benefit from the way the tutor programs accommodate a large number of questions
students have. This frees them up “to give more individualized help to students
with particular needs” (Koedinger, 1997) – which in turn benefits students with
special needs and who are at risk.
Technology Acts as a Catalyst for Change
One of the
greatest areas in which technology has the potential to benefit education is its
role in being a catalyst for change in educational pedagogy. Research shows
that student centred constructivist approaches to education lead to better
achievement in testing as well as preparing students with the skills necessary
in the modern workplace. One study done in
Turkey found
that students who learned in a classroom with a constructivist approach to learning
showed greater cooperation and collaboration, higher levels of learning, more confidence,
and more willingness to participate in learning activities (Erdamar, 2008).
Other studies
have found that student centered learning leads to better performance on tests and
greater retention of knowledge immediately after learning as well as 30 days
after learning (Karaduman, 2002).
Technology on
its own will probably not be the determining factor in bringing about such
change. As one study concluded, simply having computers in the room is not
necessarily going to lead to student centred learning, indeed teachers may not
even use the computer (Norton, 2000).
Technology Prepares Students for the Future
The future
workplace will require students to have skills related to technology including
the technical ability to use spreadsheets, word processors, databases and such.
By having and working with technology in schools, students gain the skills that
they will need to be marketable in the future workplace and to operate in a
high-tech world. However, these technical skills are not enough. The modern
workplace requires that one have less tangible skills including the ability to
collaborate with others, interpersonal skills, creativity, and problem solving
skills, to name a few. Technology, combined with a student centered constructivist
mode of learning, has the potential to provide students with these higher-level
cognitive and interpersonal skills.
The advantages
of such a combination have been well documented in The Freedom to Learn study.
By having a 1:1 ratio of students to computers and using a student centered learning
approach, along with professional development of teachers and administrators,
most of the barriers to full integration were overcome. As a result, students
in the program used software more often than that of the national norm, engaged
in meaningful computer activities, did independent research and engaged in
project based learning (Lowther, 2007).
They also
“exhibited a significantly higher ability in demonstrating understanding of the
problem and in identifying what needs to be known to solve the problem”
(Lowther, 2007, pg. 5). According to the report, they also have a significant
advantage when it comes to doing presentations and using the Internet over students,
who were not in the program (Lowther,
2007).
Computer Assisted Instruction (CAI)
CAI refers to
the use of the computer as a tool to facilitate and improve instruction. CAI
programs use tutorials, drill and practice, simulation, and problem solving
approaches to present topics, and they test the student's understanding.
CAI uses a
combination of text, graphics, sound and video in enhancing the learning
process. The computer has many purposes in the classroom, and it can be
utilized to help a student in all areas of the curriculum. (http://wikieducator.org/Computer_Assisted_Instruction_(CAI) Retrieved 29th October 2012)
Use of computer
in education is referred by many names such as; Computer Assisted Instruction (CAI),
Computer Aided Instruction (CAI), Computer Assisted Learning (CAL), Computer
Based Education (CBE), Computer Based Instruction (CBI), Computer Enriched
Instruction (CEI) and Computer Managed Instruction (CMI). Other emerging
terminologies include; Web Based Training, Web Based Learning and Web Based
Instruction.
Computer-assisted
instruction (CAI) is an interactive instructional technique whereby a computer
is used to present the instructional material and monitor the learning that
takes place.
Computer-based
education (CBE) and computer-based instruction (CBI) are the broadest terms and
can refer to virtually any kind of computer use in educational settings.
Computer-assisted instruction (CAI) Computer Aided Instruction (CAI) is a
narrower term and most often refers to drill-and-practice, tutorial, or
simulation activities. Computer-managed instruction (CMI) is an instructional
strategy whereby the computer is used to provide learning objectives, learning
resources, record keeping, progress tracking, and assessment of learner
performance. Computer based tools and applications are used to assist the
teacher or school administrator in the management of the learner and
instructional process.
Typical CAI provides; a Text or multimedia content, Multiple-choice
question, Problems, Immediate feedback, Notes on incorrect responses, summarizes
students' performance, Exercises for practice and Worksheets and tests.
Types of Computer Assisted Instruction
1. Drill-and-practice Drill and practice provide opportunities or students
to repeatedly practice the skills that have previously been presented and that
further practice is necessary for mastery.
2. Tutorial Tutorial activity includes both the presentation of
information and its extension into different forms of work, including drill and
practice, games and simulation.
3. Games Game software often creates a contest to achieve the
highest score and either beat others or beat the computer.
4. Simulation Simulation software can provide an approximation of
reality that does not require the expense of real life or its risks.
5. Discovery Discovery approach provides a large database of
information specific to a course or content area and challenges the learner to
analyze, compare, infer and evaluate based on their explorations of the data.
6. Problem Solving This approach helps children develop specific problem
solving skills and strategies.
Advantages of CAI
According to the http://www.britannica.com, the following are some of the
identified advantages of CAI in the education process. They include; one-to-one interaction, great
motivator, freedom to experiment with different options, instantaneous
response/immediate feedback to the answers elicited, Self-pacing (allow
students to proceed at their own pace), helps teacher can devote more time to
individual students, privacy helps the shy and slow learner to learns, learn
more and more rapidly, Multimedia helps to understand difficult concepts
through multi-sensory approach and lastly Self-directed learning – students can
decide when, where, and what to learn.
Limitations of CAI
On the other
hand, the limitations of CAI have been identified as; a student may feel
overwhelmed by the information and resources available, over use of multimedia
may divert the attention from the content, learning becomes too mechanical,
non-availability of good CAI packages and lack of infrastructure such as
computers and support peripherals.
