Developing ICT for Primary and Secondary Mathematics Teacher Professional Development: The Use of VTR in Lesson Study

Most (mathematics) teachers candidates have little opportunity to observe effective teaching in an actual classroom as many of their first learning experiences were based in a traditional classroom where rules were applied methodically to solve problems. In other words, they lack the experience base to meaningfully observe the classroom’s complex and rapid interactions. The use of video tape recorder (VTR) is one of the aspects of developing ICT to promote teachers professional development. Through Lesson Studies activities, some Indonesian teachers have experiences to reflect their teaching through VTR. Reflecting good teaching practice of mathematics form different context through VTR was proved to evidently encourage and motivate teachers to improve their teaching competencies. In some parts of the activities of teachers professional development programs in Indonesia, year 2002‐ 200, the reflections through VTR of Japanesse context and Indonesian context resulting teachers’ perception that it was a good model of mathematics teaching that can possibly be implemented in Indonesia. However, the techers were aware that to implement such good model there are some fundamental constraints should be overcome. Key Words: ICT, VTR, professional development, mathematics teacher, lesson stud

Volume 2. Proceedings of the Interdisciplinary STEM Teaching and Learning Conference

Full version of volume 2 of the Proceedings of the Interdisciplinary STEM Teaching and Learning Conferenc

Technology-based learning interventions on mathematical problem-solving: a meta-analysis of research in Indonesia

Mathematical problem-solving is important for learning mathematics and is needed in the 21st century. In the 21st century, education technology has been complementing every learning activity. Research on learners’ mathematical problem-solving improvement increased rapidly over the last few decades. This study examined the effectiveness of technology-based mathematics learning interventions on learners’ mathematical problem-solving at all levels of education in Indonesia. The researchers only took meta-analysis research from 2015 to 2023 from indexing databases, such as Scopus, Web of Science, Google Scholar, and Science and Technology Index (SINTA) indexers. The collected research articles were from only national journals in Indonesia. The screened data became the research results, containing the mean, standard deviation, number of samples (N), and the scale used in the research. This research had 19 independent studies in this meta-analysis. The data analysis applied meta-analysis, specifically the mean effect size value. The results of data analysis using Jeffrey’s Amazing Statistics Program (JASP) software showed the effective implementation of innovative and fun technology-based mathematics learning interventions. These findings highlighted the importance of incorporating technology into mathematics education and its potential for improving learners’ problem-solving skills

Technology Integration and Use in Elementary Mathematics Methods Courses for Pre-service Teachers

According to the National Educational Technology Plan 2010, technology should be incorporated into teaching methods courses and field experiences and not just in stand-alone technology courses. The teacher preparation programs would provide technology-based learning experiences to prepare pre-service teachers to effectively use technology to improve learning, assessment, and instructional practices. However, the problem is that graduate pre-service teacher preparation programs do not adequately prepare pre-service teachers to incorporate technology into their teaching. Furthermore, the teacher preparation programs lacked opportunities for the pre-service teachers to experience technology as learners beyond the stand-alone course in technology. Research shows the need for pre-service teachers to experience technology as learners so that they can use their knowledge to create learning environments of greater understanding in their future classrooms, specifically in the area of mathematics. Technological pedagogical content knowledge is knowledge of how to incorporate technology into the teaching of content to promote student learning (Koehler & Mishra, 2009). This study investigated the ways in which math methods courses that provide technology-based learning experiences for pre-service teachers enable them to gain the technological pedagogical content knowledge necessary for effective teaching. This study investigated two elementary methods courses where technology integration was in place. Informants included the instructors and pre-service teachers in each course. A qualitative multiple case study methodology utilizing observations of methods courses, interviews with faculty and pre-service teachers, and collection of teaching and learning artifacts was used. Additionally, this study focused on both the faculty and the students’ use of instructional technology for enhancing the teaching and learning. Furthermore, Massachusetts has a technology self-assessment tool that can be utilized by teachers to assess their own technology proficiency (Massachusetts Department of Elementary and Secondary Education, 2010). The criteria in Standard 3, Teaching and Learning with Technology, was used to assess the instructors. The analysis also described how faculty used and modeled instructional technology in the methods courses to enhance teaching and learning

Introduction to location-based mobile learning

[About the book] The report follows on from a 2-day workshop funded by the STELLAR Network of Excellence as part of their 2009 Alpine Rendez-Vous workshop series and is edited by Elizabeth Brown with a foreword from Mike Sharples. Contributors have provided examples of innovative and exciting research projects and practical applications for mobile learning in a location-sensitive setting, including the sharing of good practice and the key findings that have resulted from this work. There is also a debate about whether location-based and contextual learning results in shallower learning strategies and a section detailing the future challenges for location-based learning

Augmenting the field experience: a student-led comparison of techniques and technologies

In this study we report on our experiences of creating and running a student fieldtrip exercise which allowed students to compare a range of approaches to the design of technologies for augmenting landscape scenes. The main study site is around Keswick in the English Lake District, Cumbria, UK, an attractive upland environment popular with tourists and walkers. The aim of the exercise for the students was to assess the effectiveness of various forms of geographic information in augmenting real landscape scenes, as mediated through a range of techniques and technologies. These techniques were: computer-generated acetate overlays showing annotated wireframe views from certain key points; a custom-designed application running on a PDA; a mediascape running on the mScape software on a GPS-enabled mobile phone; Google Earth on a tablet PC; and a head-mounted in-field Virtual Reality system. Each group of students had all five techniques available to them, and were tasked with comparing them in the context of creating a visitor guide to the area centred on the field centre. Here we summarise their findings and reflect upon some of the broader research questions emerging from the project