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1. Simulation Technology and Student Engagement

   Aji, C. A. (January 2020, The 2020 ASEE Gulf-Southwest Annual Conference)

   null (Ed.)

   An authentic learning environment with the integration of technology can effectively engage students and improve their academic performance. Technology can support learning situations that relate to real life, and provide opportunities for inquiry and collaboration, fostering engagement. This paper will provide details of an authentic learning environment that utilizes flight simulation software to engage middle school students in the learning of several math and science concepts. Active learning lessons were developed using missions flown on the flight simulator. The pedagogical approach was implemented in a one-week long summer camp for students from rural counties with low socio-economic status. Data on student attitudes towards STEM was collected using a 65-item questionnaire. The performance on the content taught during the camp was also measured. The pre-post data analysis indicated positive impact of the approach. The results of this study will be included in this paper. This work is supported by NSF Grant# 1614249. 

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2. A Technology-mediated Learning Environment

   Aji, C. A. (January 2020, Society for Information Technology & Teacher Education (SITE) International Conference)

   null (Ed.)

   Implementing a technology-mediated learning environment is a challenge for teachers. They have to not only use the learning materials effectively (pedagogical content knowledge) but also integrate the technology that mediates the learning. It is important that prior to the implementation of technology-mediated learning content in the classroom, teachers feel confident on how to use the technology. Therefore, an effective professional development should be provided to the teachers. This paper includes details of the design and conduct of a professional development workshop on a technology-mediated learning environment for middle school math and science teachers from rural and economically depressed school districts. The teaching of active-learning math and science modules supported by flight simulation software was modelled during a one week summer professional development. The participating teachers’ attitudes were measured using the Math/Science Teaching Efficacy Belief Instruments. The teachers were also administered a post-workshop survey to solicit their perceptions of the effectiveness of the professional development. Analyses of the data indicated high self-efficacy in using the pedagogical approach and confidence in the effectiveness of the pedagogical approach. This paper will share the methodology of developing the pedagogical approach and some results based on the data analysis. 

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3. A Socially Relevant Focused AI Curriculum Designed for Female High School Students

   https://doi.org/10.1609/aaai.v36i11.21546  

   Alvarez, Lauren; Gransbury, Isabella; Cateté, Veronica; Barnes, Tiffany; Lédeczi, Ákos; Grover, Shuchi (June 2022, Proceedings of the AAAI Conference on Artificial Intelligence)

   Historically, female students have shown low interest in the field of computer science. Previous computer science curricula have failed to address the lack of female-centered computer science activities, such as socially relevant and real-life applications. Our new summer camp curriculum introduces the topics of artificial intelligence (AI), machine learning (ML) and other real-world subjects to engage high school girls in computing by connecting lessons to relevant and cutting edge technologies. Topics range from social media bots, sentiment of natural language in different media, and the role of AI in criminal justice, and focus on programming activities in the NetsBlox and Python programming languages. Summer camp teachers were prepared in a week-long pedagogy and peer-teaching centered professional development program where they concurrently learned and practiced teaching the curriculum to one another. Then, pairs of teachers led students in learning through hands-on AI and ML activities in a half-day, two-week summer camp. In this paper, we discuss the curriculum development and implementation, as well as survey feedback from both teachers and students. 

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4. The Impact of Teachable Machine on Middle School Teachers’ Perceptions of Science Lessons after Professional Development

   https://doi.org/10.3390/educsci14040417  

   Kurz, Terri L; Jayasuriya, Suren; Swisher, Kimberlee; Mativo, John; Pidaparti, Ramana; Robinson, Dawn T (April 2024, Education Sciences)

   Technological advances in computer vision and machine learning image and audio classification will continue to improve and evolve. Despite their prevalence, teachers feel ill-prepared to use these technologies to support their students’ learning. To address this, in-service middle school teachers participated in professional development, and middle school students participated in summer camp experiences that included the use of Google’s Teachable Machine, an easy-to-use interface for training machine learning classification models. An overview of Teachable Machine is provided. As well, lessons that highlight the use of Teachable Machine in middle school science are explained. Framed within Personal Construct Theory, an analysis of the impact of the professional development on middle school teachers’ perceptions (n = 17) of science lessons and activities is provided. Implications for future practice and future research are described. 

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5. Preparing teachers to teach artificial intelligence in classrooms: An exploratory study.

   https://doi.org/10.22318/icls2023.370046  

   Zhang, H.; Lee, I.; Moore, K. S. (June 2023, Proceedings of the 17th International Conference of the Learning Sciences - ICLS 2023)

   The rapid expansion of Artificial Intelligence (AI) necessitates educating all students about AI. This, however, poses great challenges because most K-12 teachers have limited prior knowledge or experience of teaching AI. This exploratory study reports the design of an online professional development program aimed at preparing teachers for teaching AI in classrooms. The program includes a book club where teachers read a book about AI and learned key activities of an AI curriculum developed for middle schoolers, and a 2-week practicum where teachers co-taught the curriculum in a summer camp. The participants were 17 teachers from three school districts across the United States. Analysis of their surveys revealed an increase in teachers’ content knowledge and self-efficacy in teaching AI. Teachers reported that the book club taught them AI concepts and the practicum sharpened their teaching practices. Our findings reveal valuable insights on teacher training for the AI education field. 

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