Due to mandates for the inclusion of engineering and computer science standards for K-6 schools nationwide, there is a need to understand how teacher educators can help develop preservice teachers' (PSTs') teaching self-efficacy in these areas. To provide experience teaching and learning engineering and coding, PSTs in an instructional technology…

There is a large disconnect between the increasing need for computer science education in K-12 schools and the preservice teacher training provided. Consequently, preservice teachers may graduate feeling unprepared to infuse computer science concepts such as computational thinking (CT) into their teaching. To address this, we created Robotics in…

The study investigates the potential of AI-powered plush robots to serve as assistive technologies for children with Autistic Spectrum Disorder (ASD) within educational and rehabilitation settings. It employed a qualitative research approach, utilizing semi-structured interviews with 13 experts from related fields to gather insights into the…

Background: Children with autism often face challenges in developing social-emotional skills, which are essential for their overall growth and social integration. Social robots have emerged as promising tools to support these skills; however, their effectiveness and educational applications remain uncertain, with existing research lacking…

Educational robotics is known for its effects on learners' engagement and academic achievement. Few studies have examined the teacher's attitude towards the implementation of ER in teaching practice. The main goal of this study is to examine the teachers' attitudes, self-efficacy and openness towards incorporating educational robotics into their…

In comparison to children and young students, adult learners usually exhibit more complex learning behaviors and psychological needs during the learning process. Designing social robots for adult learners has, thus, been a challenging task and a far less explored area, and it requires the great efforts from both technical and theoretical…

Preschool children (aged 5-6 years) in Singapore learn science by discovering, inquiring, and investigating things that interest them in their daily lives. One approach involves learning science through building and exploring robots based on the Artec robotics curriculum, developed by an established Japanese education provider, Artec Co., Ltd.…

There is a worldwide trend to include engineering design in high school curricula as a bridge course to higher-level STEM education and to increase high school students' interest in STEM fields. This study used a battlebot design curriculum to compare engineering design learning between high school and college first-year students and then proposed…

Fostering students' competence in applying interdisciplinary knowledge to solve problems has been recognized as an important and challenging issue globally. This is why STEM (Science, Technology, Engineering, Mathematics) education has been emphasized at all levels in schools. Meanwhile, the use of robotics has played an important role in STEM…

Nowadays, technology has become dominant in the daily lives of most people around the world. Technology is present from children to older people, helping in the most diverse daily tasks and allowing accessibility. However, many times these people are just end-users, without any incentive to develop computational thinking (CT). With advances in…

In the current investigation, we used a single case alternating treatments design to evaluate the effects of a robot prompter on the social interaction of three pairs of children with autism spectrum disorder (ASD). Findings suggest that three participants produced more utterances and conversational turns when a robot prompter was present, and two…

This paper reports findings from a study where regional, rural, and remote (RRR) educators were involved in a Queensland Government-funded 3-year Central Queensland (CQ) STEM (science, technology, engineering, and mathematics) Cluster Project designed to enhance student learning opportunities. This project provided STEM professional development,…

Productive collaborative learning and the utilization of educational robots as a tool for developing conceptual understanding and promoting student engagement and interest levels are considered crucial components of our teaching and learning environments. This is becoming more prevalent with the rise of making spaces where collaboration is a key…

This article illustrates that the task design and problem selection are of characteristic influence to evoke sense-reason-act programming (SRA) among primary school pupils when programming robots. Research shows that the task design influences the development of computational thinking (CT). The literature provides evidence that the context, the…

In this qualitative case study, we examined in-service elementary school teachers' learning of coding and robotics in a blended professional learning course developed and delivered through the collaboration between university faculty and a school district. We focused on activity theory to understand and reveal the mediations, conflicts, and…