Fostering an Inclusive Educational Culture: Developing Teachers’ Understanding and Competence

European International Journal of Philological Sciences

63

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TYPE

Original Research

PAGE NO.

63-71

DOI

10.55640/eijps-05-05-15

OPEN ACCESS

SUBMITED

25 March 2025

ACCEPTED

21 April 2025

PUBLISHED

23 May 2025

VOLUME

Vol.05 Issue 05 2025

COPYRIGHT

© 2025 Original content from this work may be used under the terms
of the creative commons attributes 4.0 License.

Fostering an Inclusive
Educational Culture:

Developing Teachers’

Understanding and
Competence

Nutfiyeva Dildora

Tashkent State University of Economics, Uzbekistan

Abstract

: This paper explores the development of an

inclusive educational culture through the integration of
next-generation wired and wireless technologies. The
study aims to identify how digital platforms, AI-based
tools, and collaborative online environments can

enhance teachers’ understanding and competence in

promoting inclusivity. A mixed-methods approach was
employed, combining a comprehensive literature
review with qualitative case studies from technology-
supported schools. Results indicate that technological
frameworks such as Universal Design for Learning (UDL)
and IoT-based smart classrooms significantly improve
teacher readiness and adaptive teaching practices. The
findings suggest that strategic adoption of these
technologies fosters a more inclusive, equitable, and
responsive educational environment. Implications for
professional development and policy implementation
are discussed.

Keywords:

Inclusive education, AI in education,

Universal Design for Learning, teacher professional
development, adaptive learning technologies, IoT-
based smart classrooms, equity in education,
educational technology, digital transformation in
schools.

Introduction:

The modern educational landscape is

undergoing significant transformations driven by the
integration of digital technologies and advancements in
next-generation

communication

systems.

These

changes offer new avenues for creating inclusive
educational environments capable of meeting the
needs of all learners, regardless of their physical,

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cognitive, or cultural characteristics [1]. Inclusive
education extends beyond merely integrating students
with disabilities; it emphasizes the development of an
environment that actively supports students with
diverse educational and social needs [2].

In recent years, the application of digital technologies
such as Artificial Intelligence (AI), Machine Learning
(ML), and the Internet of Things (IoT) in education has
expanded significantly. These technologies not only
facilitate the personalization of learning programs but
also enable the development of inclusive pedagogical
approaches tailored to the needs of individual students
[8]. The adoption of frameworks such as Universal
Design for Learning (UDL) and AI-enhanced learning
platforms helps to remove barriers to education and
ensure equitable access to all learning resources and
methods [11].

Current challenges in inclusive education include
insufficient teacher training, limited resources, and
resistance to traditional teaching approaches.

Theoretical frameworks like C. heng’s Pedagogy of the

Oppressed emphasize the importance of critically
rethinking educational systems and the role of
teachers as change agents [12]. For teachers to
effectively operate in inclusive educational settings, it
is essential not only to shift their perceptions and
attitudes but also to provide access to digital tools and
professional development opportunities [7].

This study aims to explore how the integration of next-
generation technologies can foster an inclusive
educational culture among teachers. The research
focuses on the implementation of innovations such as
AI-based adaptive learning platforms, IoT solutions for
classroom monitoring, and virtual professional
learning communities (PLCs). These technologies not
only provide personalized learning experiences for

students but also enhance teachers’ competence and

readiness for inclusive education. The main objectives
of this study are:

1.

To analyze the impact of digital technologies

on the development of inclusive pedagogy.

2.

To identify strategies and methods that

promote the creation of an inclusive educational
culture.

3.

To investigate key factors influencing teachers’

perceptions and use of technologies.

In summary, this research seeks to evaluate how the
application of new technologies can transform
traditional educational models and contribute to
creating a more inclusive and equitable learning
environment.

The rapid advancement of next-generation networks

and systems, particularly in the field of education, has
opened new avenues for inclusive educational
practices. Inclusive education emphasizes creating
equitable learning environments that actively support
students from diverse backgrounds. However, the
integration of digital tools requires teachers to be
confident in their ability to use these technologies
effectively. As shown in Table 1, trained teachers
demonstrate significantly higher confidence levels
compared to their untrained counterparts.

LITERATURE REVIEW

The literature on inclusive education underscores the
importance of creating learning environments that are
equitable and responsive to the diverse needs of
students. According to [1], inclusive education is
founded on the principle that every student, regardless
of their background or abilities, deserves equal access to
high-quality learning opportunities. This approach goes
beyond mere integration, advocating for the active
participation and success of all students within
mainstream educational settings.

The Role of Teachers in Inclusive Education

Teachers play a pivotal role in fostering an inclusive
educational culture. Research by Furyanto and

Rochmawati [7] emphasizes that teachers’ attitudes,

values, and instructional practices are instrumental in
promoting inclusivity. Effective inclusive education
requires teachers to undergo a multifaceted
transformation that is both cognitive and attitudinal,
challenging inherent biases and embracing diversity in
the classroom [12]. Additionally, culturally responsive
pedagogy, as discussed by Hibi [6], highlights the need
for teachers to develop cultural competence to engage
effectively with students from diverse backgrounds.

Technological Advancements in Education

Emerging technologies, such as AI, IoT, and digital
platforms, have been identified as key enablers of
inclusive education. The Universal Design for Learning
(UDL) framework, proposed by Carter [8], advocates for
the creation of flexible curricula that provide multiple
means of engagement, representation, and expression.
UDL aims to remove barriers to learning by addressing
the needs of all students from the outset. AI-based
adaptive learning platforms further enhance this
flexibility by enabling real-time personalization of
learning experiences based on individual student needs.

IoT-based smart classrooms are another promising
innovation in inclusive education. These classrooms
utilize sensor-based technologies to monitor student
engagement and provide immediate feedback to
teachers, thereby facilitating adaptive instruction.
Resear

ch by Bianco, D’Angelo and Caldarelli [2]

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indicates that these technologies can significantly

improve teachers’ ability to support diverse learners,

particularly when combined with ongoing professional
development.

Technological advancements, such as AI-based
adaptive learning platforms, have shown to be highly
effective in supporting inclusive practices. As shown in
Table 2, teachers with more than 5 years of experience
using these digital tools rated their effectiveness
significantly higher, demonstrating the importance of
experience in maximizing the benefits of technology.

Challenges in Developing Inclusive Culture

Despite the growing emphasis on inclusive education,
several significant challenges remain. Iqbal, Rahim and
Ohshima [5] note that many teacher preparation
programs lack comprehensive training in inclusive
practices, often focusing on theoretical knowledge
without providing sufficient practical experience.
Additionally, Khumalo and Pretorius [3] identify
systemic issues, such as resistance to change and
limited resources, as major barriers to the
implementation of inclusive strategies.

Furthermore, teachers’ own biases and assumptions
about students’ abilities can hinder the development

of an inclusive culture. Sherwood [13] argues that low
expectations

for

students

from

marginalized

backgrounds can create a self-fulfilling prophecy,

negatively impacting those students’ academic

performance and sense of belonging. This highlights
the importance of critical self-reflection and
professional development in challenging and
overcoming such biases [10].

Strategies for Promoting Inclusivity

The literature suggests several key strategies for
fostering an inclusive culture within schools.
Collaborative teaching models, such as co-teaching,
have been shown to be effective in addressing diverse
student needs by enabling general education and
special education teachers to share responsibilities and
expertise [9]. Additionally, professional learning
communities (PLCs) provide a platform for teachers to
engage in reflective dialogue, share innovative
practices, and receive constructive feedback from
peers, thereby enhancing the overall culture of
inclusivity [4].

The integration of digital tools and frameworks like
UDL,

combined

with

targeted

professional

development, plays a crucial role in equipping teachers
with the skills to create inclusive classrooms. By
leveraging AI-based platforms, teachers can move
beyond standardized teaching methods and adopt
flexible strategies that cater to the diverse needs of

their students [8].

METHODOLOGY

This study employs a mixed-methods approach to
explore the integration of next-generation digital
technologies in fostering an inclusive educational
culture. The methodology is designed to provide both
qualitative and quantitative insights into how

technological tools impact teachers’ understanding and

competence in promoting inclusivity.

Research Design

The research design consists of three key components:
a comprehensive literature review, qualitative case
studies, and quantitative analysis of survey data. The
literature review was conducted to identify existing
theories, frameworks, and technological innovations in
inclusive education. This provided a foundation for the
subsequent data collection and analysis phases.

Data Collection

Literature Review The literature review involved an in-
depth examination of peer-reviewed journals,
conference proceedings, and policy documents. Key
areas of focus included the role of AI and IoT in
education, the Universal Design for Learning (UDL)
framework, and professional development strategies
for teachers. Sources were selected based on their
relevance to inclusive education and the use of digital

technologies. Teachers’ confidence in using digital tools

plays a critical role in fostering inclusive education.
Research shows that targeted training can significantly

increase teachers’ self

-efficacy and readiness to

implement adaptive teaching strategies. This is further
supported by the data presented in Figure ??, which
illustrates higher confidence levels among trained
teachers.

Case Studies Qualitative data were collected through
case studies of schools that have successfully integrated
inclusive practices using digital platforms and next-
generation technologies. A purposive sampling method
was employed to select three schools that met specific
criteria, such as the use of AI-based adaptive learning
platforms and IoT-based classroom monitoring systems.
Semi-structured interviews were conducted with
teachers, school administrators, and technical staff to
gain insights into their experiences, challenges, and best
practices.

The interview questions focused on:

–

The perceived impact of digital tools on

teachers’ instructional practices.

–

Challenges faced in implementing inclusive

teaching strategies.

–

The role of professional development in

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supporting teachers’ adoption of new technologies.

Survey Data

Quantitative data were collected through an online
survey distributed to 150 teachers across various
schools implementing inclusive education practices.
The survey consisted of 25 questions, including both
Likert-scale and open-ended questions. The Likert-

scale questions measured variables such as teachers’

confidence in using digital tools (5-point scale),
perceived effectiveness of AI and IoT tools (5-point
scale), and self-reported inclusivity outcomes (5-point
scale).

To ensure the reliability of the survey data, a

Cronbach’s alpha test was conducted, resulting in an

alpha coefficient of 0.83, indicating acceptable internal
consistency. The quantitative data were analyzed using
descriptive statistics, correlation analysis, and t-tests
to identify significant differences and relationships
between variables.

Data Analysis

Qualitative data from the case studies were analyzed
using thematic analysis, which involved coding
interview transcripts to identify recurring themes
related to inclusivity and technology adoption. The
themes were then mapped against the findings from
the literature review to draw connections between
theoretical concepts and practical experiences.

The quantitative survey data were analyzed using
descriptive and inferential statistics. Descriptive
statistics were used to summarize the overall
responses, while inferential statistics (e.g., correlation
analysis) were employed to examine relationships

between teachers’ attitudes, digital tool usage, and

perceived outcomes in inclusive education.

Ethical Considerations

Ethical approval for the study was obtained from the
Institutional Review Board (IRB) at the affiliated
university. All participants were informed of the

study’s purpose, their right to withdraw, and the

confidentiality of their responses. Informed consent
was obtained from all participants prior to data
collection.

Limitations

This study acknowledges several limitations, including
the relatively small sample size of schools selected for
case studies, which may limit the generalizability of
findings. Additionally, the reliance on self-reported

data from surveys may introduce bias, as teachers’

perceptions may not always align with actual
classroom practices. Despite these limitations, the
study provides valuable insights into the role of digital
technologies in fostering inclusive education.

RESULTS

The results of this study highlight the significant impact
of next-generation digital technologies on fostering an
inclusive educational culture among teachers. The
findings are categorized into two main areas: qualitative
insights from the case studies and quantitative data
from the teacher survey.

Qualitative Findings from Case Studies

The analysis of qualitative data revealed several key
themes related to the integration of digital technologies
and the development of inclusive teaching practices.
The main findings from the case studies are as follows:

Impact of AI-Based Learning Platforms Teachers
reported that AI-based adaptive learning platforms
significantly improved their ability to differentiate
instruction and provide personalized support to
students with diverse needs. This finding aligns with the
Universal Design for Learning (UDL) framework, which
emphasizes flexibility in teaching methods and learning
environments [8]. Teachers noted that these platforms
allowed them to track student progress in real-time,
enabling timely interventions and tailored support.

Role of IoT-Based Smart Classrooms in schools equipped
with IoT-based smart classrooms, teachers highlighted
the benefits of real-time data collection and monitoring.
The sensors installed in classrooms provided valuable
information on student engagement and participation
levels, which helped teachers make data-driven
adjustments to their instructional strategies. This
approach was particularly effective in supporting
students with attention-related challenges or other
learning disabilities [2].

Challenges in Technology Adoption Despite the positive
impact of digital tools, teachers reported facing
challenges related to the adoption of these
technologies. Key barriers included a lack of training in
using AI and IoT tools, resistance from traditional
stakeholders, and concerns over data privacy and
security. These challenges underscore the need for
comprehensive professional development and support
systems to facilitate the effective implementation of
inclusive digital strategies [5].

Quantitative Findings from Survey Data

The survey data revealed several key insights regarding

teachers’ confidence in using digital tools and their

perceptions of inclusivity outcomes:

Teachers’ Confidence in Using Digital Tools

. Out of 150

teachers surveyed, 68% reported feeling confident in
their ability to use digital tools to support inclusive
education. Among these, 45% indicated high confidence
(a rating of 4 or 5 on a 5-point Likert scale), while 23%
expressed moderate confidence (a rating of 3). This

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confidence level was notably higher among teachers
who had received targeted training in the use of AI and
IoT applications, with 81% of trained teachers
reporting high confidence compared to 37% of

untrained teachers (p < 0.05). Figure Highlights the
disparity in confidence levels between trained and
untrained teachers, with a notably higher proportion of
trained teachers expressing high confidence.

Table 1. Confidence Levels in Using Digital Tools by Teacher Type

Teacher Type

High Confidence (%)

Moderate Confidence (%)

Low Confidence (%)

Trained

81

15

4

Untrained

37

48

15

Perceived Effectiveness of Digital Tools

. When asked

to rate the effectiveness of various digital tools in
supporting inclusive practices, AI-based adaptive
learning platforms received an average effectiveness
rating of 4.2 (SD = 0.8) on a scale of 1 to 5, while IoT-
based monitoring systems received a rating of 4.0 (SD

= 0.9). The effectiveness ratings showed a significant
difference between teachers with more than 5 years of
experience in using digital tools (M = 4.3, SD = 0.7) and
those with less experience (M = 3.7, SD = 1.0), indicating

that experience plays a role in teachers’ perceived

effectiveness of these tools (t = 3.12, p < 0.01).

Table 2. Effectiveness Ratings of Digital Tools by Experience Level

Experience Level

Effectiveness Rating (1-5)

Standard Deviation

More than 5 years

4.3

0.7

Less than 5 years

3.7

1.0

Correlation between Digital Tool Usage and
Inclusivity Outcomes

A correlation analysis was

conducted to examine the relationship between the
frequency of digital tool usage and perceived
inclusivity outcomes. The results showed a positive
correlation (r = 0.62, p < 0.01) between regular use of

digital tools and teachers’ perceptions of inclusivity in

their classrooms. This suggests that increased usage of
digital tools is associated with more positive inclusivity
outcomes, as perceived by the teachers.

Fig.1. Confidence Levels in Using Digital Tools by Teacher Type

Summary of Results

Overall, the findings indicate that the integration of
next-generation digital technologies, such as AI-based
adaptive learning platforms and IoT-based smart

classrooms, plays a crucial role in promoting inclusivity
in education. However, the study also highlights the
importance of targeted professional development and
support systems to address challenges in technology

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adoption and maximize the effectiveness of these
tools.

DISCUSSION

The findings of this study provide valuable insights into
how next-generation digital technologies can support
the development of an inclusive educational culture.
By examining both qualitative and quantitative data,
this research highlights several key implications for the
integration of AI, IoT, and digital platforms in
education.

Interpretation of Results

The positive correlation (r = 0.62, p < 0.01) between
digital tool usage and perceived inclusivity outcomes
suggests that regular use of AI and IoT technologies can

enhance teachers’ ability to create inclusive learning

environments. This finding aligns with previous
research emphasizing the importance of digital tools in
promoting flexible and student-centered teaching

approaches [8]. Additionally, the higher confidence
levels reported by trained teachers (81%) indicate the
critical role of professional development in facilitating
technology adoption.

However, the significant difference in perceived
effectiveness between experienced and inexperienced
teachers (t = 3.12, p < 0.01) highlights the need for
continuous support and training. Teachers with more
experience using digital tools rated their effectiveness
higher, suggesting that proficiency in technology usage
improves over time and contributes to more effective
inclusive practices. The higher effectiveness ratings
reported by experienced teachers (Table 2) suggest that
familiarity with digital tools plays a crucial role in
maximizing their impact on inclusive education. This
finding aligns with previous studies emphasizing the
importance of professional development in enhancing

teachers’ competence in using technology.

Fig.2. Effectiveness Ratings of Digital Tools by Experience Level

Comparison with Existing Literature

The results of this study support existing research on
the benefits of digital technologies in education. For
instance, the use of AI-based platforms to personalize
learning experiences aligns with the work of Meyer et
al. [8], which highlights the importance of adaptive
learning in promoting inclusivity. Similarly, the role of
IoT-based smart classrooms in providing real-time data
for teachers is consistent with findings by Florian and
Black-Hawkins [2], who emphasize the potential of

technology to enhance teachers’ responsiveness to
students’ needs.

However, this study also identifies several challenges
in technology adoption that are less frequently

discussed in the literature. Teachers reported
difficulties in acquiring the necessary skills to effectively
use AI and IoT tools, highlighting a gap between
theoretical training and practical application. This
finding suggests that while technological solutions hold
great promise, their successful implementation requires
ongoing

support

and

targeted

professional

development [3,9].

Implications for Practice

The findings of this study have several implications for
educational practice. First, schools should prioritize the
integration of digital technologies within inclusive
pedagogical frameworks like UDL. Providing teachers
with AI-based adaptive learning platforms and IoT-

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based monitoring tools can help them better meet the
diverse needs of their students. Second, professional
development programs must include comprehensive
training on the use of these technologies, ensuring that
teachers have the necessary skills and confidence to
implement inclusive practices effectively. Additionally,
schools should establish collaborative networks and
virtual PLCs to facilitate peer learning and knowledge
sharing among educators

[4].

Limitations and Future Research

Despite the valuable insights gained from this study,
several limitations must be acknowledged. The small
sample size of case studies may limit the
generalizability of the findings to other educational
contexts. Furthermore, the reliance on self-reported
data from surveys introduces the possibility of bias, as

teachers’ perceptions may not fully reflect their actual

practices in the classroom. Future research should
consider expanding the sample size and incorporating
classroom observations to validate self-reported data.

Future research should also explore the long-term
impact of digital technologies on inclusive education.
Longitudinal studies could provide a deeper

understanding of how teachers’ attitudes and

instructional practices evolve over time with continued
use of AI-based platforms and IoT tools. Additionally,
further investigation is needed into the role of school
leadership in supporting technology adoption and
fostering a culture of inclusivity.

Conclusion of Discussion

In conclusion, this study demonstrates that next-
generation digital technologies, such as AI-based
adaptive learning platforms and IoT-based smart
classrooms, play a critical role in promoting inclusivity
in education. By providing teachers with flexible and
responsive tools, these technologies help create
equitable learning environments that accommodate
the diverse needs of all students. However, successful
implementation requires comprehensive professional
development and systemic support to address
challenges in technology adoption.

CONCLUSION

The integration of next-generation digital technologies
has the potential to significantly transform the
landscape of inclusive education. This study explored
the role of AI-based adaptive learning platforms and
IoT-based smart classrooms in enhancing teac

hers’

understanding and competence in promoting
inclusivity. The findings demonstrate that these
technologies enable teachers to personalize learning
experiences, monitor student engagement, and adapt

their instructional strategies to meet diverse needs
effectively.

The qualitative case studies revealed that AI and IoT
tools

provide

valuable

insights

into

student

performance, allowing teachers to implement timely
and tailored interventions. Quantitative survey data
further confirmed that teachers who received targeted
training in these technologies reported higher levels of
confidence and perceived effectiveness in creating
inclusive learning environments. However, the
challenges identified in technology adoption, such as
insufficient training and resistance from traditional
stakeholders, highlight the need for comprehensive
professional development and systemic support.

The implications of this research extend beyond
individual schools, suggesting that a broader shift
toward digitally supported inclusive education is
needed. By aligning digital tools with inclusive
pedagogical frameworks like Universal Design for
Learning (UDL), schools can create more flexible and
equitable learning environments that accommodate the
needs of all students. Additionally, fostering a culture of
collaboration through virtual professional learning

communities (PLCs) can further enhance teachers’

readiness for inclusive education.

Future research should focus on expanding the scope of
this study to include a larger sample size and
longitudinal observations to capture long-term changes
in

teacher

practices

and

student outcomes.

Investigating the role of school leadership in supporting
technology integration and inclusivity initiatives is also
essential to creating sustainable changes within
educational institutions.

In conclusion, this study emphasizes the transformative
potential of next-generation digital technologies in
fostering inclusive educational cultures. By equipping
teachers with adaptive and responsive tools, these
technologies pave the way for more equitable and
student-centered learning environments. The findings
underscore the importance of strategic planning,
targeted professional development, and ongoing
collaboration in achieving inclusive education.

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