Research Article
Xiaotong Yu, María Ángeles Gutiérrez-García, Roberto Soto-Varela, Melchor Gómez-García
CONT ED TECHNOLOGY, Volume 17, Issue 1, Article No: ep545
ABSTRACT
Robotics education and robot-embedded learning have become focal points in recent interdisciplinary and innovative education. Despite the identified opportunities, there are still limitations and considerations before integrating educational robotics into foreign language education on a large scale. This survey investigates foreign language teachers’ perceptions and acceptance of teaching with educational robotics and robot-assisted language learning. To achieve this, the ERPA scale, containing five subscales measuring teachers’ technological, pedagogical, and content knowledge, and the perceived usefulness of robots, was adapted as the data collection instrument. The scale consisted of 19 items based on a 5-point Likert scale. A total of 109 foreign language teachers from Spain participated in the survey. The results suggest a positive relationship between teachers’ basic digital competence, technological knowledge of robot usage, pedagogical knowledge in foreign language teaching, and perceived usefulness of robots. Additionally, the length of service and target language positively affect acceptance. This research contributes to current educational robotics studies by identifying features of robots considered suitable for language teaching, such as animal-like embodiments instead of humanoid forms.
Keywords: attitudes, acceptance, educational robotics, EFL, second language
Research Article
Silvino Antonio Castañeda Rincón, Hayarelis Moreno Gudiño, Richard de Jesús Gil Herrera
CONT ED TECHNOLOGY, Volume 16, Issue 3, Article No: ep522
ABSTRACT
In light of the growing diversity of students in the classroom, there is a pressing need to address the potential for discrimination against minorities, arising from cultural, socioeconomic, special needs, learning styles, and other differences. It is, therefore, essential to establish inclusive learning environments that guarantee equitable learning outcomes for all children and young people. This study aims to determine the impact of educational robotics (ER) in promoting emotional, cognitive, and social inclusion attributes through active methodologies among secondary students in public institutions. The applied methodology is composed of elements typical of active methodologies implemented in education and cited in the theoretical framework. The instruments employed to measure the classroom intervention process across various stages demonstrated a gradual improvement in the reference attributes of inclusive education. The findings suggest that ER can serve as a valuable tool for promoting inclusion in diversity contexts.
Keywords: diversity, educational robotics, educational technology, inclusion
Research Article
Mohammed Muneerali Thottoli, Badria Hamed Alruqaishi, Arockiasamy Soosaimanickam
CONT ED TECHNOLOGY, Volume 16, Issue 1, Article No: ep485
ABSTRACT
Purpose: Chatbots and artificial intelligence (AI) have the potential to alleviate some of the challenges faced by humans. Faculties frequently swamped with teaching and research may find it difficult to act in a parental role for students by offering them individualized advice. Hence, the primary purpose of this study is to review the literature on chatbots and AI in light of their role in auto-advising systems. The authors aimed to gain insights into the most pertinent topics and concerns related to robo academic advisor and identify any gaps in the literature that could serve as potential avenues for further research.
Design/methodology/approach: The research employs a systematic literature review and bibliometric techniques to find 67 primary papers that have been published between 1984 and 2023. Using the Scopus database, the researchers built a summary of the literature on chatbots and AI in academic advice.
Findings: Chatbot applications can be a promising approach to address the challenges of balancing personalized student advising with automation. More empirical research is required, especially on chatbots and other AI-based advising systems, to understand their effectiveness and how they can be integrated into educational settings.
Research limitations/implications: This research’s sample size may restrict its findings’ generalizability. Furthermore, the study’s focus on chatbots may overlook the potential benefits of other AI technologies in enhancing robo academic advising systems. Future research could explore the impact of robo academic advisors in diverse societal backgrounds to gain a more comprehensive understanding of their implications.
Practical implications: Higher educational institutions (HEIs) should establish a robo academic advising system that serves various stakeholders. The system’s chatbots and AI features must be user-friendly, considering the customers’ familiarity with robots.
Originality/value: This study contributes to a better understanding of HEIs’ perceptions of the adoption of chatbots and AI in academic advising by providing insightful information about the main forces behind robo academic advising, illuminating the most frequently studied uses of chatbots and AI in academic advising.
Keywords: Artificial intelligence, chatbots, robo, academic advisor, human interaction
Research Article
Nagla Ali, Ieda M. Santos, Rehab AlHakmani, Othman Abu Khurma, Myint Swe Khine, Usama Kassem
CONT ED TECHNOLOGY, Volume 15, Issue 4, Article No: ep469
ABSTRACT
It is becoming increasingly vital for the next generation of students to acquire problem-solving, critical thinking, and collaborative skills for them to be successful in the 21st century. The use of technology greatly bolsters the integration of these skills. Robotics, one of the many emerging arrays of technologies, presents learners with challenges and opportunities for developing innovative ideas, critical thinking, and higher-order thinking skills. As a result, the Ministry of Education in Dubai realized these potentials and took an essential step in the form of the distribution of Lego Mindstorms Education kits to schools with the goal of encouraging teachers to use these kits in their classrooms. This research study aimed to investigate teachers’ perceptions of a training on Lego Mindstorms in terms of content, methodology, activities, and recommendations. In addition, the study investigated how teachers perceived Lego Mindstorms based on TAM model. A total of 59 high school (cycle 2) teachers participated in the current study. The data from the teachers were collected using both quantitative and qualitative approaches. Data analysis consists of descriptive statistics and thematic analysis. Teachers showed positive perceptions of robotics integration, emphasizing its potential to enhance teaching and learning. Their willingness to learn and adapt, combined with their recommendations for enhanced training methods, highlights the importance of continuous professional development for effective robotics integration. Teachers expressed the need for more practical training, hands-on activities, and a balance between theoretical and practical aspects. A positive correlation between perceived learning usefulness, perceived teaching usefulness, perceived ease of use, attitudes, and teachers’ intention to use Lego Mindstorms in their future teaching was found.
Keywords: robotics, TAM model, teaching usefulness, learning usefulness, behavioral intentions
Research Article
Jane Elizabeth Casey, Lisa K. Pennington, Dallas Lopez
CONT ED TECHNOLOGY, Volume 13, Issue 1, Article No: ep281
ABSTRACT
When educators provide students with opportunities to interact with educational technology such as floor-robots, it may: (a) increase students’ awareness of new educational tools, and (b) enhance students’ use and engagement with new technologies. This case study provided upper-elementary, Hispanic students with opportunities to engage in structured and unstructured activities with floor-robots, with direct support from researchers and the cooperating teacher. These educational robots were introduced to student-participants on multiple occasions during regular instructional class time in a Title I school on the U.S.-Mexico border to determine: (a) students’ interest in continued use of floor-robots; and (b) students’ perceptions of ease-of-use of floor-robots. Floor-robots were selected largely because researchers had access to two types: a Roamer floor-robot and a Thymio floor-robot. For students from underserved populations, it is important that educators strengthen students’ self-efficacy in science, technology, engineering, and mathematics (STEM) areas (Mau & Li, 2018), as well as increase students’ awareness and use of newer educational technologies, which is a growing field and includes floor-robots. However, in-service teachers may need guidance, support, and professional development when selecting and using new educational technologies such as floor-robots. Student-participants’ post-study surveys and interviews provided researchers with insight into elementary students’: (a) interest in floor-robots and robotics, (b) perceived ease-of-use, (c) preferred type of floor-robot in this particular study, and, (d) opinions on the potential uses and downsides of floor-robots.
Keywords: Hispanic students, floor-robots, English language learners
Research Article
Hatice Yildiz Durak, Fatma Gizem Karaoglan Yilmaz, Ramazan Yilmaz
CONT ED TECHNOLOGY, Volume 10, Issue 2, pp. 173-197
ABSTRACT
The purpose of this study was to determine the skill levels of secondary school students regarding computational thinking, programming self-efficacy and reflective thinking aimed at problem solving and examine their experiences in the programming training process on robotic activities. Toward this purpose, a 10-week application was conducted with 55 students from 6th and 7th grades who received education at a secondary school in Western Black Sea region of Turkey during the school year of 2017-2018. The study was conducted using the mixed model and various scales in the quantitative dimension. On the other hand, a semi-structured interview form developed by the researchers was applied in the qualitative dimension. As a result, it was found out that students’ computational thinking skills, programming self-efficacy and reflective thinking aimed at problem solving were moderate. Students’ levels of computational thinking and programming self-efficacy were observed to differ depending on their grade levels. In addition, a positive and moderate relationship was found among the levels of computational thinking, programming self-efficacy and reflective thinking aimed at problem solving.
Keywords: Robotics, Computational thinking, Programming self-efficacy, Reflective thinking, Programming