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Article

Investigating Stakeholders’ Views on Technology Integration: The Role of Educational Leadership for Sustainable Inclusive Education

by
Mutlu Uygur
1,
Burak Ayçiçek
2,*,
Hikmet Doğrul
1 and
Tuğba Yanpar Yelken
1
1
Faculty of Education, Mersin University, Mersin 33110, Turkey
2
Department of Child Care and Youth Services, Tokat Gaziosmanpaşa University, Tokat 60250, Turkey
*
Author to whom correspondence should be addressed.
Sustainability 2020, 12(24), 10354; https://doi.org/10.3390/su122410354
Submission received: 22 October 2020 / Revised: 18 November 2020 / Accepted: 3 December 2020 / Published: 11 December 2020
(This article belongs to the Special Issue Sustainability in Leadership and Education)
Versions Notes

Abstract

:
This study aims to determine the views of teachers, school administrative staff having educational leadership roles, and faculty members on integration of technology and the role of educational leadership for sustainable inclusive education. The study group included 38 teachers working in Mersin province, Turkey, 11 school administrative staff, and 11 faculty members working at the Education Faculty. This study was structured employing a “basic interpretive qualitative study model”. In the study, a semi-structured interview form consisting of open-ended questions was used as a data collection tool. According to the findings, the faculty members do not consider that inclusive education practices reach an adequate level of sustainability. Therefore, the participants also suggest adding a sustainable inclusive education course in teacher education programs. School administrative staff and teachers have emphasized that technological infrastructures of schools are inadequate for sustainable inclusive education practices. A majority of teachers have used technology in sustainable inclusive education practices. Overall, the participants believe that the integration of technology into sustainable inclusive education has positive effects on students such as ensuring permanent, quick, and easy learning. This study proves that different stakeholders that have a key role in providing sustainable inclusive education handle this issue from different perspectives and they have both positive and negative opinions on the sustainable inclusive education practices.

1. Introduction

The educational needs are changing in the 21st century; the concepts of lifelong, inclusive, equal, and fair education form the basis of education and thereby, teachers should respond to the needs of children with different characteristics in their educational processes. It is emphasized that each education system needs to comply with the principles of “non-discrimination, accessibility, flexibility, accommodation to specific needs, alternative approaches to learning and teaching, equality of standards, participation, support for meeting disability-related needs, and preparation for the labour market” [1]. Therefore, a fair-minded understanding of education, where equal opportunities are created for all students, forms the basis of the concept of inclusive education. Inclusive education is an educational approach towards the applications of qualified education and training processes, which are implemented in order to ensure that each student has equal rights in education by creating equal opportunities abiding by plans and objectives. Inclusive education involves a broad range of strategies, activities, and processes for the provision of education as the universal right of everyone if it is of good quality and relevant to objectives [2]. The target in inclusive education is to minimize discrimination [3]. In inclusive education, all students, regardless of their differences, are a member of the school community [4]. UNESCO [5] emphasizes that all children and even those in the disadvantaged group should have access to compulsory and quality basic education as part of education for all educational processes. Inclusive education aims to satisfy the needs of each student in order to eliminate obstacles that may arise from individual differences in the educational process [6]. Equal and inclusive education is one of the most essential tools for a fairer community order [7]. Schools in the education system can neutralize the differences by creating a school culture that involves everyone with the warmth and welcoming culture within the school [8]. Situations such as gender, disability status, ethnicity, poverty, or migration in inclusive education are considered as the versatility of inclusive education. According to Ira and Gör [9], the inclusive education process should be guided to provide an ideal education for disadvantaged and migrant children, macro education policies must be developed in this regard for children in the disadvantaged groups, and adequate resources must also be arranged.
The concept of inclusive education is considered as a sustainable process within the scope of sustainable development goals. In the United Nations Sustainable Development Summit held in 2015, global goals were discussed and Sustainable Development Goals expected to be achieved by 2030 were specified [10]. At this summit, 17 themes related to sustainable development were determined. One of these themes is “quality education”. Under this theme, the emphasis was made on “providing an inclusive and quality education for everyone and supporting lifelong learning”. Similarly, Medina-García, Doña-Toledo, and Higueras-Rodríguez [11] have stated that there is a direct relationship between the process of educational inclusion and the general approach from the Sustainable Development Goals in order to achieve a sustainable future for all. On the other hand, Booth [12] emphasized that sustainability was at the core and made great a contribution to establishing inclusive school structures, procedures, and activities. In this sense, the concept of sustainable inclusive education emerges as one of the components of sustainable development. Sustainability is a broad concept that encompasses economic, social, and environmental goals. Environmental sustainability includes the issues surrounding transport, energy, water, or biodiversity. Economic sustainability refers to the ability of an economy to support a defined level of economic production indefinitely [13]. On the other hand, social sustainability includes the issues as health and safety, ethics, inclusive community, respect, partnerships as well as the ability to work in teams, etc. [14]. In achieving social sustainability, the level of education has a great potential for successful labor market integration [15].
Creating appropriate conditions to ensure that the educational process covers all children and their physical needs and so forth in the process is a prerequisite of sustainable inclusive education for schools to put through such a comprehensive school culture. Studies on sustainable inclusive education consider recognition and appreciation of diversity in educational settings as an approach that concerns attitudes and perceptions throughout the society beyond a set of strategies [5]. As can be understood, sustainable inclusive education has a significant role in keeping up with the changes of the 21th century.
There are important stakeholders who contribute to providing and ensuring sustainable inclusive education successfully at schools. Multiple stakeholders should be involved in the process for a successful inclusion. For this purpose, students, parents, teachers, educational leaders, and specialists must fully follow the principles and procedures required by inclusion. Therefore, stakeholders must work together to ensure inclusive education [16]. Teachers and school administrative staff have some responsibilities such as organizing and guiding the education process as well as guiding students in sustainable inclusive education [17]. In this context, creating opportunities for all students to benefit from the educational process and to develop their potentials is so important [18,19,20]. School administrators are one of the key factors in the sustainable inclusive education process. The school administrator is the person responsible for all kinds of organizations of the school to achieve education goals at the desired level by means of an efficient and effective organization of teams, tasks, and processes [21]. They are responsible for meeting the needs of the society in a broad sense, and the individual in particular, increasing the level of school outputs and the readiness of students [22]. On the other hand, teachers are one of the stakeholders in providing sustainable inclusive education. They need to have training and specific knowledge on the issues handled within sustainability. In addition, the training that will be given to the teachers on the questions of sustainability is an indispensable part of this process [23].
Today, individuals who are critical, problem solvers, knowledgeable about world culture, and that adhere to multiculturalism are needed due to rapid and radical socioeconomic changes, globalization, and the impact of advanced technologies on every aspect of life. These new demands have made the duties of the school administrators more comprehensive and multicomponent [24]. School administrators are also expected to use their educational leadership role effectively in the process of managing the capacities of teachers, students, and parents in terms of achieving the common educational goals [25]. They have to ensure that everyone equally benefits from inclusive programs, by highlighting the benefits and the overall approach to social justice they contribute to. Additionally, they have to create opportunities for all students to have maximum access to the program. Hence, they have to collaborate with other people involved in the sustainable inclusive education team at school. According to Stegemann and Jaciw [26], school administrators have to perform activities that get and give support for participants involved in the education process of the community (i.e., teachers, students, and families) and encourage them in this regard. In addition, they must focus on developing firm relationships with their staff to increase teachers’ inclusive practices [27]. Wagner and Katsiyannis [28] argue that if the school administrators are well equipped in terms of educational leadership, they will be better prepared for protecting students’ rights and for ensuring that students can get sustainable educational benefits. It is understood that educational leaders are expected to have an understanding of their responsibilities and the roles related to the inclusive education, which provides a successful inclusion [29]. In addition, educational leaders should have positive attitudes and perceptions towards inclusive education [16]. As a result, it is seen that school administrators are at the core of ensuring sustainable inclusive education as educational leaders.
Wong et al. [30] have stated that the educational and information communication technologies play a significant role in creating an effective and adaptable learning environment, especially in the teaching–learning processes carried out for students with special educational needs in sustainable inclusive classrooms. Learners can get more opportunities to understand the learning process via information and communications and media technologies (ICMT) enhanced learning environments than the learning process in face-to-face classroom settings [31]. Technology has a great potential for students in terms of providing access for all learning. Especially, an assistive technology (AT) is a broad concept that covers virtually all things that may be used to meet the needs of those with lack of certain abilities [32]. In this regard, various studies emphasizing the importance of using technology in special education within sustainable inclusive classrooms have been conducted in the literature [33,34,35,36,37,38]. Therefore, it is required for teachers to have a suitable school environment and school climate in schools to use technology effectively in sustainable inclusive education. In this sense, school administrative staff who have educational leadership roles have important duties and responsibilities in order for teachers to use technology in sustainable inclusive education activities in their schools.
Today, the use of information communication technologies has been insufficient in sustainable inclusive and special needs education. At this point, Starcic [39] has highlighted that competencies of teachers related to using technology and sustainable inclusive education are poor. According to Starcis [40], it is important for prospective teachers to understand that educational technology helps students with special educational needs and teaching process in sustainable inclusive classrooms. In this context, the school administrator is expected to take educational leadership role and provide technological leadership [22]. At this point, educational leaders are expected to ensure the sustainability of inclusive education activities in schools, to take all kinds of precautions and measures, and to provide a technology infrastructure and environment in accordance with today’s student expectations and needs. In this sense, the integration of technology into education and the approaches of school administrators having an educational role towards both sustainable inclusive education and the use of technology for sustainable inclusive education are essential.
Based on the information in the literature, it is seen that technology has started to be used intensely in today’s educational environments. It is now almost impossible to evaluate education independently from technology [41]. Education has been one of the areas affected by the pandemic process that emerged in 2020. In the context of sustainable inclusive education, efforts have been made to make arrangements to ensure that every child can benefit from access to education equally and fairly. In the context that emerged as a result of pandemic process, it is seen that some environments and arrangements such as live lessons organized within distance education activities, technology classes in schools for students who do not have internet access at home, etc., are vital for the sustainability of inclusive education.
Faculty members, teachers, and school administrative staff are seen as important stakeholders in the preparation of programs, organization, and implementation of sustainable inclusive education activities [16]. Therefore, this study tried to determine the approaches, opinions, and suggestions of the stakeholders for the role of the educational leaders responsible for sustainable inclusive education, the integration of technology into sustainable inclusive education, and the technology-based organization of sustainable inclusive education activities in order to realize sustainable inclusive education activities and to reach a judgment. Considering the literature in inclusive education, most studies are conducted for the education of disabled students [42,43,44,45] and the diversities caused by language, religion, ethnicity, and migration, which are considered as the versatility of inclusive education [3,8,18,46,47,48,49,50,51,52] in recent years. However, there are almost no studies analyzing and interpreting the opinions of teachers, school administrative staff, and faculty members on the integration of technology and the role of educational leaders in sustainable inclusive education through a qualitative research design.
Addressing this research gap makes up the significance of this study. Therefore, this study is considered important in determining the views of participants, having duties and responsibilities in sustainable inclusive education activities, on the use and integration of technology into sustainable inclusive education and the role of educational leaders; and to develop suggestions for the integration of technology into sustainable inclusive education programs accordingly.
This study aims to determine the views of teachers, school administrators and faculty members related to the integration of technology into sustainable inclusive education and the role of educational leaders to contribute to the field by developing suggestions regarding sustainable inclusive education programs. The main problem statement of the study was determined as “what are the views of teachers, school administrative staff, and faculty members on the integration of technology into sustainable inclusive education and the role of educational leadership?”
In this respect, answers to the following sub-problems were sought in the study.
  • What are the views of faculty members on sustainable inclusive education, integration of technology into sustainable inclusive education, and the role of educational leadership?
  • What are the views of school administrative staff having educational leadership roles on sustainable inclusive education, integration of technology into sustainable inclusive education, and the role of educational leadership?
  • What are the views and suggestions of teachers on sustainable inclusive education, integration of technology into sustainable inclusive education, and the role of educational leadership?

2. Materials and Methods

2.1. Research Model

The basic interpretive qualitative study model was employed in this study, which is the most common form of qualitative research used in the field of education [53]. In a basic interpretive qualitative study, the researcher is interested in how people make sense of and interpret their experiences [54]. In this sense, the term “basic” is used for distinguishing this study from other specific forms of qualitative studies such as phenomenology, ethnography, and grounded theory, while also bearing an additional meaning that distinguishes this study from “applied” research [55]. Researchers conducting basic qualitative studies are interested in how people interpret their lives, how they build their world, and what meanings they add to their experiences. Basic qualitative studies reveal detailed accounts of a phenomenon, interpretations of the phenomenon (relationships between the conceptual categories and previous research), and new insights [53]. Therefore, it was decided to use a basic interpretive qualitative research design in this study in order to obtain in-depth and detailed views and comments about sustainable inclusive education, integration of technology into sustainable inclusive education, and the role of educational leadership. In addition, such a study is needed to guide applied research. The basic qualitative studies can guide the applied research in a meaningful way.

2.2. Study Group

Of purposeful sampling methods, the criterion sampling technique was employed in the study to determine the study participants. Purposeful sampling consists of the selection of a small number of subjects from a particular population or culture with regards to specific criteria determined by the nature of the research question [56]. The criterion sampling technique involves the inclusion of individuals who serve the purpose of a particular study as criteria [57]. In this study, active involvement in the process of sustainable inclusive education practices was determined as the convenience sampling criteria. The study group of the study consisted of 38 teachers working in Mersin province, 11 school administrative staff, and 11 faculty members working at the Education Faculty. Besides information about independent variables such as gender, age, title, professional experience, and department in the personal information form, “knowledge of sustainable inclusive education, having education for sustainable inclusive education, and providing training for sustainable inclusive education” were also questioned. The information about the study participants is given in Table 1.

2.3. Data Collection Process

Researchers reviewed relevant studies in national and international literature. In line with these studies, the decision was made on which measurement tools to use. The “personal information form and open-ended question forms” used in the study were prepared by researchers for teachers, school administratiors, and academic staff. In each questionnaire form, there were six questions on the views’ of teachers, school administrators, and academic staff on some aspects of sustainable inclusive education. While determining the questions to be asked, a detailed literature review was made regarding sustainable inclusive education, and the related studies were examined. In addition, the opinions and suggestions of a specialist in the field of curriculum development were taken. Great attention was paid to prepare the questions in a way to reflect the purpose of the study in the best way. The questions were also checked in terms of suitability, clarity, and comprehensibility.
Before collecting the data, the participants of the study were informed about the context and the purpose of the study. The prepared questionnaire was sent to some of the participants via e-mail due to pandemic process, and they also sent their replies through e-mail. On the other hand, face-to-face interviews were conducted with most of the participants. The data collection process lasted nearly one month. The interviews were conducted one by one and lasted nearly half an hour.

2.4. Data Collection Tools

A personal information form was used in this study to collect participants’ personal information, and an open-ended question forms were used to determine views of participants about sustainable inclusive education.

2.4.1. Personal Information Form

The personal information form prepared by researchers examining the measurement tools used in the literature, included questions about gender, age, school type, education status, title, and work experience of teachers, school administrative staff, and faculty members. The personal information form also included questions intended for obtaining information about the participants’ “knowledge of sustainable inclusive education, having education about sustainable inclusive education, and providing training for sustainable inclusive education”.

2.4.2. Open-Ended Question Forms

The data in the study were collected using open-ended question forms. Reja et al. [58] asserts that it provides individuals an opportunity to give natural and honest responses to open-ended questions independent of the researcher, and this allows the researcher to reach the truth. In this context, three forms including six open-ended questions were prepared to determine the views of teachers, school administrative staff, and faculty members. In the first phase, 10 open-ended questions were prepared by the researchers. These questions were then given to two faculty members working at the Department of Curriculum and Instruction and five Ph.D. students studying in the fields of educational sciences for expert opinions. In line with expert opinions, open-ended forms consisting of six different questions were determined for teachers, school administrative staff, and faculty members in the study group.

2.5. Data Analysis

Data from open-ended questions were analyzed using the content analysis method. Content analysis is a scientific approach that assists systematic analysis of the data. The main purpose of content analysis is to find the concepts and relationships that facilitate explanation of collected data and to reveal the themes that enable organizing and making the collected information comprehensible [59]. The basic procedure in content analysis is to aggregate similar data within the framework of specific concepts and themes and to organize and interpret them in a way that the reader can understand [60].

2.6. Validity and Reliability

The views of teachers, school administrative staff, and faculty members on sustainable inclusive education and the integration of technology into sustainable inclusive education were independently evaluated by two different experts. Subsequently, two experts determined the common categories and codes by discussing the views they analyzed according to different themes. Moreover, the inter-coder compatibility values concerning the codes and categories identified by experts were examined. The Miles–Huberman reliability formula was used to compute the reliability of the study. According to Miles–Huberman’s coder reliability formula, the reliability percentage is derived from the “reliability percentage = agreements/(total number of agreements + disagreements) × 100” formula, and achieving at least 80% of reliability is expected [61]. The reliability value is reported in percentage ranging between 0 and 1 (e.g., reliability percentage = 80%; reliability value = 0.08). As a result of calculations, the reliability values in all sub-questions of the study were found to be above 0.80. Thus, the coder reliability was ensured based on coder reliability calculations in this study. The Miles–Huberman reliability values obtained from the content analysis are presented in Table 2, Table 3 and Table 4, below.

3. Results

3.1. Findings on the First Sub-Problem

In the first sub-problem of the study, perspectives of faculty members on the adequacy of sustainable inclusive education practices in Turkey, and their reasons are given in Table 5 below.
According to Table 5, it was found that faculty members did not consider the sustainable inclusive education practices to be at an adequate level in Turkey (f = 11; 100%). They stated that this was due to the lack of quality in sustainable inclusive education program (f = 5; 33.3%); inefficient use of supports provided by UNICEF, MoNE, SSP, and Development Agencies (f = 3; 20%); and factors related to teachers such as lack of awareness, not taking responsibility, not receiving pre-service and in-service training (f = 3; 20%).
The findings related to the views, justifications, and suggestions of faculty members on the importance of learning outcomes related to sustainable inclusive education in the teacher education programs are given in Table 6 below.
According to Table 6, all faculty members considered the learning outcomes related to sustainable inclusive education important in the teacher education programs (f = 10; 100%). They considered these learning outcomes important since sustainable inclusive education provided awareness on equal opportunity (f = 7; 70%). Thus, faculty members proposed opening sustainable inclusive education courses in undergraduate programs in education faculties (f = 15; 94%).
Findings related to the perspectives of faculty members regarding the appropriate methods, techniques, strategies, educational tools, and activities that teachers can use while organizing lessons in sustainable inclusive education are given in Table 7 below.
As shown in Table 7, the views of faculty members on the appropriate methods, techniques, strategies, educational tools, and activities that teachers could use when organizing lessons in sustainable inclusive education were analyzed under “organizing classroom climate, out-of-school support, and activity types” categories. In the category of organizing classroom climate, the faculty members (f = 2; 50%) underlined the importance of creating rich learning environments considering the principle of functionality. In the out-of-school support category, they emphasized the importance of family involvement and family guidebooks (f = 2; 50%). In the activity types category, the faculty member emphasized that student-centered activities (f = 13; 100%) such as group work, cooperative learning, individualized teaching, and drama activities are important and effective activities in sustainable inclusive education.
Findings related to the views of faculty members regarding the effective use of technology in sustainable inclusive education are given in Table 8 below.
As shown in Table 8, the faculty members were of the opinion that technology can be effectively used in sustainable inclusive education through interactive technology portals (f = 6; 37%), digital stories (f = 3; 18%), mobile technology applications (f = 3; 18%), computer-assisted materials and applications (f = 2; 13%), flipped classroom applications (f = 1; 7%), and social media (f = 1; 7%).
Findings related to the views of faculty members regarding the integration of technology into sustainable inclusive education, and its advantages and disadvantages for teachers and students are presented in Table 9 below.
As seen in Table 9, the views of faculty members on the integration of technology into sustainable inclusive education and its advantages and disadvantages for teachers and students indicated that they considered reducing workload and encouraging active participation (f = 2; 25%) as primary advantages and the infrastructure inadequacy as a primary disadvantage (f = 3; 37.5%). Faculty members stated that some advantages of integrating technology into sustainable inclusive education for the students were being more enjoyable, encouraging active participation, increasing retention, and being motivated and innovative (f = 2; 13.3%), while cost and infrastructure inadequacy were considered as primary disadvantages (f = 2; 40%).
Findings related to the views of faculty members regarding the roles of educational leaders in integration of technology into sustainable inclusive education are presented in Table 10 below.
As shown in Table 10, the views of faculty members’ on the roles of educational leaders in integration of technology into sustainable inclusive education were analyzed under “competencies and responsibilities” categories. In this context, competencies expected from educational leaders are sustainable inclusive education competencies (f = 9; 29%), educational leadership competencies (f = 8; 25.8%), knowledge of technology competencies (f = 8; 25.8%), and pedagogic competencies (f = 6; 19.4%). Responsibilities expected from educational leaders are providing opportunities and environment for sustainable inclusive education (f = 8; 27.6%), having the ability to be technological leadership (f = 8; 27.6%), organizing technology equipment and infrastructure (f = 7; 24.1%), and supporting the development and training of teachers (f = 6; 20.7%).

3.2. Findings on the Second Sub-Problem

As part of the second sub-problem of the study, views of school administrative staffs having the role of educational leadership were investigated. The findings related to the views of school administrative staff on the role of sustainable inclusive education in the integration of migrant and inclusive students are presented in Table 11 below.
According to the findings in Table 11, school administrative staff expressed that integration of migrant and inclusive students through sustainable inclusive education positively contributed to the teaching–learning process (f = 7; 50%), created equal opportunities (f = 3; 22%), minimized social differences (f = 3; 22%), and provided an integrated classroom climate (f = 1; 6%).
Findings related to the school administrative staffs’ views on conditions that schools should meet in terms of using technology in sustainable inclusive education are given in Table 12 below.
As seen in Table 12, school administrative staff emphasized that smart and interactive boards (f = 5; 29.4%), internet and web tools (f = 4; 23.5%), and audio-visual video-presentations (f = 3; 17.6%) were the basic tools and conditions that schools should meet in terms of using technology in sustainable inclusive education.
Findings related to the school administrative staffs’ views on the suitability of their schools for the use of technology in sustainable inclusive education and the technological equipment and conditions their schools meet are given in Table 13 below.
As shown in Table 13, school administrative staff considered the number of projectors and smart boards in schools adequate (f = 4; 30%), but they found the number of interactive boards and technological infrastructure inadequate (f = 3; 37.5%).
Findings related to the school administrative staffs’ views about the positive effects of using technology in sustainable inclusive education are given in Table 14 below.
As seen in Table 14, the school administrative staff stated that using technology in sustainable inclusive education had some positive effects such as allowing students’ active and permanent learning (f = 3; 17.6%), direct access to information (f = 3; 17.6%), and behavior change in self-understanding and self-disclosure (f = 3; 17.6%).
The findings related to the school administrative staffs’ views on how they support teachers and students for the effective use of technology in sustainable inclusive education as educational leaders are given in Table 15 below.
According to the findings in Table 15, to enable students and teachers to make effective use of technology in sustainable inclusive education, the school administrative staff claimed that they provided some opportunities such as providing technological technical support (f = 6; 37%), directing students to the Education Information Network platform, and creating project–course activities (f = 3; 18%).

3.3. Findings on the Third Sub-Problem

Within the scope of the third sub-problem of the study, the teachers’ perspectives were investigated. Findings related to the teachers’ views on sustainable inclusive education practices are presented in Table 16 below.
According to Table 16, it was found that teachers mostly included sustainable inclusive education practices in teaching–learning processes (f = 21; 55.3%), but some of teachers did not include these practices (f = 15; 44.7%). Practices used by teachers were analyzed by dividing them into the categories of “technique-based practices, principle-based practices, and method-based practices”. Teachers who claimed that they applied sustainable inclusive education practices reported that they mostly used individualized teaching (f = 9; 40%), group work (f = 5; 22%), and educational game practices (f = 3; 13%) as technique-based practices. On the other hand, they stated that they applied active participation (f = 6; 66.7%) in principle-based practices, while applying creative drama practices (f = 3; 100%) in method-based practices.
The findings related to the teachers’ views on principles, methods, techniques, strategies, and educational tools appropriate to use in sustainable inclusive education are given in Table 17 below.
As shown in Table 17, it was found that teachers mostly used the active participation principle (f = 3; 60%), demonstration–performance method (f = 3; 34%), and group teaching technique (f = 13; 40.6%) in sustainable inclusive education. As educational tools, they preferred audio/visual materials (f = 7; 87.5%).
The findings related to the views of teachers on the integration of technology into sustainable inclusive education are given in Table 18 below.
According to Table 18, teachers stated that they mostly used a smart board (f = 9; 20.5%), computer (f = 8; 18.2%), internet (f = 6; 13.6%), and educational videos (f = 6; 13.6%) as practices assisted by technological tools in integration of technology into sustainable inclusive education. As new instructional technologies, teachers stated that they used robotic coding applications (f = 2; 40%), STEAM applications (f = 1; 20%), technological puzzles (f = 1; 20%), and web tools (f = 1; 20%).
The findings related to the views of teachers on positive and negative effects of integrating technology into sustainable inclusive education are given in Table 19.
According to Table 19, teachers emphasized that integration of technology into sustainable inclusive education had positive effects on students such as enabling permanent learning (f = 7; 26.9%), enabling quick and easy learning (f = 6; 23.1%), developing technological skills (f = 5; 19.2%), enabling active participation (f = 4; 15.4%), and addressing multiple sensory organs (f = 4; 15.4%). However, teachers highlighted the negative effects of integrating technology in sustainable inclusive education on students such as encouraging laziness (f = 5; 50%), causing distraction (f = 2; 20%), misusing (f = 2; 20%), and reducing socialization (f = 1; 10%). They stated that integration of technology into sustainable inclusive education had positive effects on teachers such as developing technology utilization skills (f = 5; 45%) and being able to use different methods and techniques (f = 3; 28%) and negative effects such as increasing workload (f = 4; 45%) and encouraging laziness (f = 2; 22%).
The findings related to the views of teachers regarding the problems encountered concerning the use of technology in sustainable inclusive education and their solution recommendations are given in Table 20 as follows.
According to Table 20, the problems teachers mentioned are addressed in the categories of “problems caused by technological inadequacies, educational leaders, and physical conditions”. Teachers indicated that the major problems in technology utilization in sustainable inclusive education were due to inadequacies of technological equipment (f = 15; 34.1%), technological infrastructure (f = 15; 34.1%), insufficient number of educational leaders (f = 24; 61.5%), and overcrowded classrooms (f = 5; 62.5%). Under the category ‘’solutions’’, they proposed improving technological infrastructure (f = 3; 34%), making classroom sizes manageable (f = 2; 22%), and increasing technology education quality in sustainable inclusive education (f = 2; 22%).
Findings related to the views of teachers regarding the roles of educational leaders in integration of technology into sustainable inclusive education are presented in Table 21 below.
As shown in Table 21, the views of teachers on the roles of educational leaders in integration of technology into sustainable inclusive education were analyzed under the “responsibilities” category. Encouraging sustainable inclusive education (f = 9; 23.7%), creating a technology-friendly school climate (f = 9; 23.7%), supporting the use of technology (f = 8; 21%), contributing to teacher development (f = 6; 15.8%), and providing necessary infrastructure and arrangements for technology (f = 6; 15.8%) are expressed as responsibilities of educational leaders by teachers.

4. Discussion

This study aims to determine the views of teachers, school administrative staff, and faculty members on integration of technology and the role of educational leadership for sustainable inclusive education. Within the sub-problems of the study, it is concluded that faculty members do not consider sustainable inclusive education practices to be at an adequate level in Turkey. They emphasize that this is due to the lack of quality in the sustainable inclusive education program. This result suggests that there are deficiencies in the content and implementation processes of the current sustainable inclusive education program in Turkey, and efforts should be made to improve the quality of the content and implementation process of the sustainable inclusive education program. In the study conducted by Sánchez, de Haro-Rodríguez, and Martínez [62], it is obtained that lack of teacher training is considered as one of the biggest barriers for the successful inclusive education. Lpez Torrijo and Mengual-Andrés [63] have pointed out that teacher training is important for the successful inclusion process. Abdelhameed [64] has stated that negative attitudes and lack of awareness on inclusive education across stakeholders and limited teacher and specialist/leader preparation and training are among the most important barriers for sustainable inclusive education. Barnhill, Polloway, and Sumutkaet [65] have stated that teachers are lacking abilities and knowledge for inclusive education.
Faculty members have emphasized that the learning outcomes related to sustainable inclusive education are important in the teacher education program. The findings show that there are deficiencies in the teacher education programs in Turkey in having prospective teachers acquire learning outcomes related to sustainable inclusive education. In this context, it is thought that the inclusive education course content and practices should be integrated into the teacher education program. At this point, it is concluded that integration of sustainable inclusive education courses into teacher education programs and the effective and quality guidance of their content and application process are essential. Teachers occupy an important position in the sustainable inclusion education practices. The effective implementation of sustainable inclusive education is largely depended on the high quality of professional preparation of teachers. Therefore, teachers should be trained about sustainable inclusive principles, and they should take training both at pre-service and in-service stages [66]. Similarly, Jones et al. [67] have emphasized that teachers should be provided with professional development for successful inclusive education. In Ira and Gör’s [9] study, it is emphasized that sustainable inclusive education process of faculty members must be guided in a way that enables the provision of the best education to disadvantaged migrant children and that macro education policies must be developed for children in disadvantaged groups in this regard. The result obtained in this study is in parallel to those of Ira and Gör’s [9] results.
Faculty members have emphasized the necessity of establishing rich learning environments based on the functionality principle. They have pointed out that student-centered activities such as group work, cooperative learning, individualized teaching, and drama are important and effective activities in sustainable inclusive education for teachers while organizing lessons in sustainable inclusive education. They have also emphasized conducting family involvement activities and creating family guidebooks during the out-of-school periods for the families. These findings may stem from the fact that faculty members consider the in- and out-of-school processes important for the success of sustainable inclusive education and believe that the educational processes must be organized accordingly. Many studies in the literature indicate positive effects of in- and out-of-school activities on students [68,69,70,71,72]. In this study, it is found that teachers’ sustainable inclusive education competencies are not at the expected level according to the opinions of faculty members and teachers. Similary, in the study conducted by Starcic [39], it is concluded that teachers’ information and communications technology (ICT) competencies and sustainable inclusive education competencies levels are low. According to Starcic [40], it is important for prospective teachers to understand the potentials of educational technology, which helps students with special educational needs and teaching process in inclusive classrooms. In this context, it can be said that learning outcomes regarding sustainable inclusive education competencies related to ICT, which are included and expected to be in the teacher training program for sustainable inclusive education and technology use, are very important for prospective teachers to be successful in future sustainable inclusive education practices.
According to another finding obtained in the study, it is seen that the faculty members have emphasized the importance of using interactive and interactive technology portals effectively for effective use of technology in sustainable inclusive education. In terms of information, media and technology skills, “information literacy, media literacy, information, and communications technologies literacy” are important 21st century life skills. In this context, technology-based program needs have arisen in order to facilitate and support educational environments, and interactive technology portal applications have become popular. At this point, it is thought that the integration of interactive and interactive technology applications into the education and training process will provide positive contributions in order to achieve desired outcomes in the sustainable inclusive education process and to support the teaching–learning process.
Faculty members have also emphasized that integration of technology into sustainable inclusive education has a number of advantages such as “reducing workload and encouraging active participation” for teachers. The mobile learning concept, which has entered every field of our lives along with technology, and the principle of learning everywhere at any time are thought to have led to this. It is possible to make the teaching–learning process more flexible and enjoyable through applications such as flipped learning, augmented reality, and second life via mobile learning. This way, the teacher’s workload will be reduced as well as the lessons will become more enjoyable during the education process. Faculty members have emphasized that the inadequacy of infrastructure at schools can be a disadvantage for teachers in the process. Technological infrastructure must be perfect and satisfactory to use technology effectively in sustainable inclusive education. This view is thought to be due to the present major deficiencies in schools. Moreover, the emphasis has been made that the integration of technology into sustainable inclusive education can lead to achievements like making the process more enjoyable, increasing retention, and being more motivated. The fact that today’s K–12-level students, whom we call the digital generation, are keen on using digital technologies and familiar with computer software and hardware is thought to be the reason behind this. There are many studies in the literature showing the positive effects of digital technologies on students [73,74,75]. Faculty members evaluated the roles of educational leaders in the integration of technology into sustainable inclusive education in terms of competencies and responsibilities. The competencies expected from educational leaders are defined as inclusive education competencies, educational leadership competencies, knowledge of technology competencies, and pedagogic competencies. It is seen that faculty members almost emphasize these competencies. It is thought that educational leaders who prefer using technology effectively in their school should have sufficient content knowledge of technology, pedagogy, and inclusive education.
School administrative staff have stated that sustainable inclusive education positively contributes to the teaching–learning process in the integration of migrant and inclusive students. Teachers put efforts to create opportunities to have all students make utmost use of the teaching–learning process and develop their potentials through sustainable inclusive education [18,19,20], and this is the fact that is thought to have led to this. At this point, it could be concluded that sustainable inclusive education contents and practices concerning the teaching–learning processes for students in sustainable inclusive education groups are of great importance and therefore should not be ignored.
The educational and information communication technologies in sustainable inclusive education play a crucial role in creating an effective and adaptable learning environment in teaching–learning processes, especially for students with special educational needs [30,33,34,35,36,37,38]. In this context, technological infrastructures of schools are expected to be adequate and class sizes convenient. The findings of the study have indicated that overcrowded classrooms and inadequacy of technological infrastructures of schools are the main problems in achieving learning outcomes in the process of integrating technology into sustainable inclusive education. In this context, no matter how good the quality of the sustainable inclusive education program is, sustainable inclusive education cannot achieve its goal unless variables like technological infrastructure of schools and class sizes are feasible. This result of the study supports the findings of the study conducted by Aksoy [76]. Educational leaders state that technology is an important factor for sustainable inclusive education activities in schools, and they are making efforts in this direction. They state that the problems related to the integration of technology for sustainable inclusive education of technology arise from reasons such as allowance or physical inadequacy. However, teachers think that educational leaders have a lot of responsibilities in this regard, but some of them are not fulfilled. It is thought that this is due to the fact that educational leaders do not observe teachers, who are practitioners, and do not question their demands and expectations sufficiently. Teachers have emphasized that integration of technology into sustainable inclusive education enables permanent learning, while it can also have a number of negative effects on students such as causing laziness with access to ready-made information, inhibiting research–inquiry skills, and leading to technology addiction. According to Aksoy [76], educational institutions should guide the education process well in order to deal with the types of addictions in individuals and institutions created by new technologies and consider contributing to the utilization and development of technology as a goal.

5. Conclusions

In this study, it was aimed to determine the views of teachers, school administrative staff, and faculty members on the integration of technology into sustainable inclusive education and the role of educational leadership. Since there are almost no studies analyzing and interpreting the opinions of teachers, school administrative staff, and faculty members on the integration of technology and the role of educational leaders in sustainable inclusive education through a qualitative research design, this study helps to determine the views of participants who have duties and responsibilities in sustainable inclusive education activities on the use and integration of technology into sustainable inclusive education and the role of educational leaders; and to develop suggestions for the integration of technology into sustainable inclusive education programs accordingly.
The results of the study indicate that faculty members do not consider the sustainable inclusive education practices to be at an adequate level in Turkey. They think that learning outcomes related to sustainable inclusive education are important in the teacher education programs. Additionally, the faculty members have emphasized using rich learning environments, empathy-oriented classroom atmospheres, and flipped classroom models founded on the functionality principle in the category of “organizing classroom climate”. On the other hand, school administrative staff have expressed that integration of migrant and inclusive students through sustainable inclusive education positively contributes to the teaching–learning process, creates equal opportunities, minimizes social differences, and provides an integrated classroom climate. It is also determined that teachers mostly include sustainable inclusive education practices in teaching–learning processes, and they mostly use individualized teaching, group work, educational game practices, and family involvement as technique-based practices. Thus, this study proves that different stakeholders that have a key role in providing sustainable inclusive education handle this issue from different perspectives, and they have both positive and negative opinions on the sustainable inclusive education practices.
The purpose of this study was to address a gap in the literature that failed to examine different stakeholders’ views on integration of technology and the role of educational leadership for sustainable inclusive education. The findings showed that the practices conducted to ensure sustainable inclusive education were not at the desired level, which indicates that there should be improvements on this issue in Turkey. Therefore, the findings of the study can help policy makers in determining more broad practices in providing sustainable inclusive education. In the literature, it is seen that the studies on inclusive education have been conducted with limited stakeholders. On the contrary, in this study, different stakeholders were included, and therefore more detailed information was attempted to be obtained, which is one of the superior elements of the study.
However, this study has some limitations. Interview technique was conducted to obtain the opinions of the stakeholders. However, especially due to the pandemic process, questionnaire forms were sent to some of the stakeholders via e-mail, and they also sent their replies via e-mail. As a result, face-to-face interviews could not be conducted with all stakeholders included in the study, which is one of the limitations of the study. In addition, this study is limited in terms of time period. Another limitation of this study was a small sample size. It would be beneficial to conduct exploratory research with a larger pool of participants.
In the following studies that will be conducted on this issue, a longer time period can be determined, and some observations can be made at schools to understand what practices teachers apply at schools in terms of providing sustainable inclusive education. Similar observations can be conducted at universities. Therefore, it can be better understood whether there are differences between the practices applied by teachers and academic staff in ensuring sustainable inclusive education. This study is designed based on the basic interpretive qualitative study model. In the following studies, the effects of integrating technology into sustainable inclusive education and participants’ views can be determined by experimental and mixed-methods designs. More in-depth case studies should be conducted with a larger number of participants. Modern educational programs that integrate technology into curricula and instruction effectively during the sustainable inclusive education process should be developed. Opportunities should be provided for stakeholders in the field of education to create awareness about sustainable inclusive education.
In summary, the study revealed that teachers, school administrative staff, and faculty members have the knowledge of sustainable inclusive education and have emphasized the importance of using technology in sustainable inclusive education. In addition, the fact that teacher competencies in integrating technology into sustainable inclusive education and that technological infrastructures are not at the required level are among the major problems. Therefore, it is concluded that technological equipment of schools should be improved and that learning outcomes related to the use of technology in sustainable inclusive education should be added to the teacher education programs.

Author Contributions

Conceptualization: M.U. and B.A.; data curation: M.U.; formal analysis: H.D. and T.Y.Y.; investigation: M.U. and H.D.; methodology: H.D. and T.Y.Y.; resources: B.A.; supervision: T.Y.Y.; validation: M.U., B.A., and H.D.; writing—original draft: T.Y.Y.; writing—review and editing: B.A. All authors have read and agreed to the published version of the manuscript.

Funding

This research received no external funding.

Conflicts of Interest

The authors declare no conflict of interest.

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Table
Table 1. Personal information regarding participants.
Table 1. Personal information regarding participants.
Variables Faculty MembersSchool Administrative StaffTeachers
f%f%f%
GenderFemale763.6327.32873.7
Male436.4872.71026.3
Age21–30- 218.225.3
31–40545.5545.51231.6
41–50654.5327.31847.4
51 and above- 19.1615.8
TitleDr. Faculty Member436.4----
Associate Prof. Dr.654.5----
Prof. Dr.19.1----
Professional Experience1–10 years218.2763.6410.5
11–20 years545.5327.32052.6
21 years and above436.410.11436.9
DepartmentCurriculum and Instruction654.5----
Measurement and Evaluation in Education19.1----
School Counseling and Guidance218.2----
Computer and Instruction Technology218.2----
Primary School--109.1615.8
Kindergarten--190.93284.2
Knowledge of Sustainable Inclusive EducationYes111001090.93078.9
No0019.1821.1
Having Education for Sustainable Inclusive EducationYes218.2981.83181.6
No981.8218.2718.4
Providing Training for Sustainable Inclusive EducationYes19.1436.42257.9
No1090.9763.61642.1
Table
Table 2. Miles-Huberman reliability values for the content analysis of faculty member views.
Table 2. Miles-Huberman reliability values for the content analysis of faculty member views.
Opinion Form Qualitative Data ContentReliability Values
1Views of faculty members on sustainable inclusive education practices in Turkey0.91
2Views of faculty members on sustainable inclusive education in teacher education programs0.90
3Views of faculty members on methods, techniques, strategies, or educational tools and activities related to sustainable inclusive education0.85
4Views of faculty members on the use of technology in sustainable inclusive education0.94
5Views of faculty members on the integration of technology into sustainable inclusive education0.85
6 Views of faculty members on the role of educational leadership0.87
Table
Table 3. Miles–Huberman reliability values for the content analysis of school administrative staff views.
Table 3. Miles–Huberman reliability values for the content analysis of school administrative staff views.
Opinion Form Qualitative Data ContentReliability Values
1Views of school administrative staff on the role of sustainable inclusive education0.89
2Views of school administrative staff on the conditions that schools should have in terms of using technology in sustainable inclusive education0.90
3Views of school administrative staff on the suitability of schools for technology use in sustainable inclusive education and the technological equipment conditions0.85
4Views of school administrative staff on the effects of using technology in sustainable inclusive education0.91
5Views of school administrative staff on the support they provide for effective use of technology in sustainable inclusive education0.89
6Views of school administrative staff on the role of educational leadership0.93
Table
Table 4. Miles-Huberman reliability values for the content analysis of teacher views.
Table 4. Miles-Huberman reliability values for the content analysis of teacher views.
Opinion Form Qualitative Content DataReliability Values
1Views of teachers on sustainable inclusive education practices0.93
2Views of teachers on principles, methods, techniques, strategies, and educational tools in sustainable inclusive education0.88
3Views of teaches on the integration of technology into sustainable inclusive education0.90
4Views of teachers on the effects of integrating technology into sustainable inclusive education0.91
5Views of teachers on problems related to the use of technology in sustainable inclusive education0.87
6Views of teachers on the role of educational leadership0.90
Table
Table 5. Views of faculty members on the adequacy of sustainable inclusive education practices in Turkey and their reasons.
Table 5. Views of faculty members on the adequacy of sustainable inclusive education practices in Turkey and their reasons.
Categoryf%Codes f%
Inadequate11100Lack of quality in sustainable inclusive education 533.3
Inefficient use of supports provided by UNICEF, ministry of national education (MoNE), social support program (SSP), and development agencies 320
Teacher-related factors (lack of awareness, not taking responsibility, not receiving pre-service and in-service training) 320
Failure to achieve standardization in physical conditions (regions, schools, and classrooms) 213.3
Lack of business schools for sustainable inclusive education 16.7
Lack of supervision 16.7
Total15100
Adequate--- --
Table
Table 6. Views, justifications, and suggestions of faculty members on the importance of learning outcomes related to sustainable inclusive education in teacher education program.
Table 6. Views, justifications, and suggestions of faculty members on the importance of learning outcomes related to sustainable inclusive education in teacher education program.
CategoryCodes—Reasons f%Codes—Suggestions f%
ImportantProviding equal opportunities 770Sustainable inclusive education courses should be opened (Preliminary preparation process for acquiring knowledge and skills, application, preparation, communication, concentration, and awareness training) 1594
Meeting community needs 220
Preliminary preparation process for students with different characteristics for the future 110
Professional development systems should be established 16
Total10100 Total16100
Unimportant --- --
Table
Table 7. Views of faculty members on appropriate methods, techniques, strategies, educational tools, and activities that teachers can use while organizing lessons in sustainable inclusive education.
Table 7. Views of faculty members on appropriate methods, techniques, strategies, educational tools, and activities that teachers can use while organizing lessons in sustainable inclusive education.
CategoryCodes f%
Organizing Classroom ClimateRich learning environments created based on the principle of functionality 250
Creating a classroom atmosphere that prioritizes empathy 125
Creating flipped classroom model 125
Total4100
Out-of-School SupportFamily involvement—family guidebooks 250
Functional psychosocial support program 125
Support rooms 125
Total4100
Activity TypesGroup work activities 215
Cooperative learning activities 215
Individualized teaching activities 215
Drama activities 215
Case study activities 18
Discussion activities 18
Game-based activities 18
Computer-assisted teaching 18
Interactive–flexible activities 18
Total13100
Table
Table 8. The views of faculty members on the effective use of technology in sustainable inclusive education.
Table 8. The views of faculty members on the effective use of technology in sustainable inclusive education.
CategoryCodes f%
Effective UseInteractive technology portals (edmodo, edpuzzle, etc.) 637
The use of digital story 318
Mobile technology applications 318
Computer-assisted materials and applications 213
Flipped classroom applications 17
Social media 17
Total16100
Table
Table 9. Views of faculty members on integration of technology into sustainable inclusive education and its advantages and disadvantages for teachers and students.
Table 9. Views of faculty members on integration of technology into sustainable inclusive education and its advantages and disadvantages for teachers and students.
CategoryCodes (Advantages) f%Codes (Disadvantages) f%
TeacherReducing workload 225Infrastructure inadequacy 337.5
Encouraging active participation 225Workload in preparation for information equipment 225
Being a facilitator 112.5Cost 225
Being conspicuous 112.5Encouraging laziness 112.5
Being more enjoyable 112.5
Enabling social transformation 112.5
Total8100 Total8100
StudentBeing more enjoyable 213.3Cost 240
Encouraging active participation 213.3Infrastructure inadequacy 240
Increasing retention 213.3Preventing socialization 120
Being motivated 213.3
Being innovative 213.3
Being comprehensible 113.3
Offering equal opportunity 16.7
Making one feel special 16.7
Providing rich stimuli 16.7
Being independent of time and space 16.7
Total15100 Total5100
Table
Table 10. Views of faculty members on the roles of educational leaders in integration of technology into sustainable inclusive education.
Table 10. Views of faculty members on the roles of educational leaders in integration of technology into sustainable inclusive education.
CategoryCodes f%
CompetenciesSustainable inclusive education competencies 929
Educational leadership competencies 825.8
Knowledge of technology competencies 825.8
Pedagogic competencies 619.4
Total31100
ResponsibilitiesProviding opportunities and environment for sustainable inclusive education. 827.6
Having the ability to be technological leadership. 827.6
Organizing technology equipment and infrastructure. 724.1
Supporting the development and training of teachers. 620.7
Total29100
Table
Table 11. Views of school administrative staff on the role of sustainable inclusive education in the integration of migrant and inclusive students.
Table 11. Views of school administrative staff on the role of sustainable inclusive education in the integration of migrant and inclusive students.
CategoryCodes f%
BenefitMaking positive contributions to the teaching–learning process (developing connectedness, creating awareness, generating empathy, developing harmony) 750
Creating equal opportunity 322
Minimizing social differences 322
Providing an integrated classroom climate 16
Total14100
Table
Table 12. Views of school administrative staff on conditions that schools should meet in terms of using technology in sustainable inclusive education.
Table 12. Views of school administrative staff on conditions that schools should meet in terms of using technology in sustainable inclusive education.
Codes f%
Smart and interactive boards 529.4
Internet and web tools (web 2.0, etc.) 423.5
Audio and visual video-presentations 317.6
Computer and projector 211.8
Technological tools and materials 211.8
Consideration of sustainable inclusive education in technological physical conditions and infrastructure 15.9
Total17100
Table
Table 13. Views of school administrative staff on suitability of their schools for the use of technology in sustainable inclusive education and the technological equipment and conditions their schools meet.
Table 13. Views of school administrative staff on suitability of their schools for the use of technology in sustainable inclusive education and the technological equipment and conditions their schools meet.
Codes f%
AdequaciesProjector 430
Smart board 430
Computer 324
Internet 216
Total13100
InadequaciesShortage of interactive boards 337.5
Shortage of technological infrastructure 337.5
Shortage of internet 112.5
Shortage of projectors 112.5
Total8100
Table
Table 14. Views of school administrative staff on the positive effects of using technology in sustainable inclusive education.
Table 14. Views of school administrative staff on the positive effects of using technology in sustainable inclusive education.
Codes f%
Active and permanent learning 317.6
Direct access to information 317.6
Behavior change in self-understanding and self-disclosure 317.6
Supporting multiple intelligence learning 211.8
Effective use of visual media 211.8
Effective use of time 15.9
Using technology-assisted programs and developing mastery 15.9
Minimizing social differences 15.9
Providing technology-based communication 15.9
Total17100
Table
Table 15. Views of school administrative staff as educational leaders on how they support teachers and students for the effective use of technology in sustainable inclusive education.
Table 15. Views of school administrative staff as educational leaders on how they support teachers and students for the effective use of technology in sustainable inclusive education.
Codes f%
Providing technological technical support 637
Directing to the education information network platform 318
Creating project–course and activity 318
Being a role model—guiding 213
Encouragement 17
Providing teaching materials 17
Total16100
Table
Table 16. Views of teachers on the use of sustainable inclusive education practices.
Table 16. Views of teachers on the use of sustainable inclusive education practices.
Use f%CategoryCodes f%
Yes2155.3Technique-Based PracticesIndividualized teaching practices 940
Group work practices 522
Educational game practices 313
Family involvement 313
Computer-assisted practices 28
Peer tutoring practices 14
Total23100
Principle-Based PracticesActive participation practices 666.7
From concrete to abstract practices 333.3
Total9100
Method-Based PracticesCreative drama practices 3100
Total3100
No 1544.7
Total36100
Table
Table 17. Views of teachers on principles, methods, techniques, strategies, and educational tools appropriate to use in sustainable inclusive education.
Table 17. Views of teachers on principles, methods, techniques, strategies, and educational tools appropriate to use in sustainable inclusive education.
CategoryCodes f%
PrinciplesActive participation 360
Functionality 240
Total5100
TechniquesGroup teaching 1340.6
Computer-assisted teaching 825
Individualized teaching 721.9
Educational game-based teaching 39.4
Out-of-school teaching 13.1
Total32100
MethodsDemonstration–performance 334
Creative drama 222
Case study investigation 111
Discussion 111
Problem-solving 111
Direct instruction 111
Total9100
Educational ToolsAudio/visual materials 787.5
Educational videos 112.5
Total8100
Table
Table 18. Views of teachers on integration of technology into the sustainable inclusive education.
Table 18. Views of teachers on integration of technology into the sustainable inclusive education.
CategoryCodesf%
Practices Assisted by Technological ToolsSmart board920.5
Computer 818.2
Internet 613.6
Educational video 613.6
Projector 49.1
Technological materials 49.1
Educational portals 36.8
Educational games and animations 36.8
Tablet 12.3
Total44100
New Instructional TechnologiesRobotic coding applications 240
STEAM applications 120
Technological puzzle 120
Web tools 120
Total5100
Table
Table 19. Views of teachers on the positive and negative effects of integrating technology into sustainable inclusive education.
Table 19. Views of teachers on the positive and negative effects of integrating technology into sustainable inclusive education.
CategoryCodes f%Codesf%
StudentPositive Effect Negative Effect
Permanent learning 726.9Encouraging laziness (inhibiting research–inquiry skills)550
Quick and easy learning 623.1Causing distraction220
Developing technological skills 519.2Misusing220
Enabling active participation 415.4Reducing socialization110
Addressing multiple sensory organs 415.4
Total26100 10100
TeacherPositive Effect Negative Effect
Developing technology utilization skills 545Increasing workload445
Being able to use different methods and techniques 328Encouraging laziness (inhibiting research–inquiry skills)222
Reducing workload 218Reducing teacher-–student interaction process222
Increasing professional satisfaction 19A professional obligation111
Total11100 9100
Table
Table 20. Views of teachers on problems encountered concerning the use of technology in sustainable inclusive education and their solution recommendations.
Table 20. Views of teachers on problems encountered concerning the use of technology in sustainable inclusive education and their solution recommendations.
CategoryCodes f%
Problems Caused by Technological InadequaciesInadequacy of technological equipment 1534.1
Inadequacy of technological infrastructure 1534.1
Inadequacy of access to out-of-school process 49.1
Inadequacy of teachers’ technology utilization skills 49.1
Indifference and negative attitudes towards technology 36.8
Inadequacy of technological software and applications 36.8
Total44100
Problems Caused by Educational LeadersInsufficient number of educational leaders 2461.5
Negative attitudes of educational leaders 1538.5
Total39100
Problems Caused by Physical ConditionsOvercrowded classrooms 562.5
Inadequacy of physical conditions of school and classroom 337.5
Total8100
SolutionsImproving technological infrastructure 333.4
Making classroom sizes available 222.2
Increasing the quality of technology education for sustainable inclusive education 222.2
Free internet access for teachers and students 111.1
Opening technology labs at schools 111.1
Total9100
Table
Table 21. Views of teachers’ on the roles of educational leaders in integration of technology into sustainable inclusive education.
Table 21. Views of teachers’ on the roles of educational leaders in integration of technology into sustainable inclusive education.
CategoryCodes f%
ResponsibilitiesEncouraging sustainable inclusive education 923.7
Creating a technology-friendly school climate 923.7
Supporting the use of technology 821
Contributing to teacher development 615.8
Providing necessary infrastructure and arrangements for technology 615.8
Total38100
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MDPI and ACS Style

Uygur, M.; Ayçiçek, B.; Doğrul, H.; Yanpar Yelken, T. Investigating Stakeholders’ Views on Technology Integration: The Role of Educational Leadership for Sustainable Inclusive Education. Sustainability 2020, 12, 10354. https://doi.org/10.3390/su122410354

AMA Style

Uygur M, Ayçiçek B, Doğrul H, Yanpar Yelken T. Investigating Stakeholders’ Views on Technology Integration: The Role of Educational Leadership for Sustainable Inclusive Education. Sustainability. 2020; 12(24):10354. https://doi.org/10.3390/su122410354

Chicago/Turabian Style

Uygur, Mutlu, Burak Ayçiçek, Hikmet Doğrul, and Tuğba Yanpar Yelken. 2020. "Investigating Stakeholders’ Views on Technology Integration: The Role of Educational Leadership for Sustainable Inclusive Education" Sustainability 12, no. 24: 10354. https://doi.org/10.3390/su122410354

APA Style

Uygur, M., Ayçiçek, B., Doğrul, H., & Yanpar Yelken, T. (2020). Investigating Stakeholders’ Views on Technology Integration: The Role of Educational Leadership for Sustainable Inclusive Education. Sustainability, 12(24), 10354. https://doi.org/10.3390/su122410354

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