More Like this

1. Reflections on Launching a Networked Improvement Community with Computer Science Educators

   https://doi.org/10.1109/respect49803.2020.9272443  

   Fletcher, Carol L.; Torbey, Ryan; Childs, Joshua; Zarch, Rebecca (March 2020, 2020 Research on Equity and Sustained Participation in Engineering, Computing, and Technology (RESPECT)

   null (Ed.)

   This experience report details the lessons learned while launching a Networked Improvement Community (NIC) with 23 teachers in Texas as part of the NSF-funded Accelerating Women’s Success and Mastery in Computer Science (AWSM in CS) project. Conceived to address the persistent gender inequities in computer science (CS) education, the NIC was designed to bring together researchers and practitioners to collaboratively develop and implement solutions with the goal of increasing female participation in CS courses. This experience report explores the lessons learned, such as the importance of building a sense of community, trust, and collaboration, before jumping into problem solving as a NIC. Additionally, the report addresses considerations for sustaining the NIC virtually given the logistical constraints placed on teacher collaboration during the school year. 

   more » « less
2. Lessons in adaptation: A five-year design analysis of culturally responsive computer science PD for elementary teachers

   Mathayas, N; Nolte, A; Mead, H; Mouza, C; Pollock, L; Rolon-Dow, R; Alkhateeb, B; Ospina-Tabares, S (March 2025, Society of Information Technology and Teacher Education)

   This study examines the evolution of a professional development (PD) program over a 5-year period designed to enhance computer science (CS) education in elementary schools. Despite growing emphasis on CS in K-12 education, elementary teachers often lack resources and training. Our project addressed this gap by offering an annual summer PD Institute (2020 to 2024), aimed to equip K-5 teachers with content and pedagogical knowledge needed to integrate CS into their curriculum. The overarching intention of the program is to increase CS opportunities in elementary schools, with a focus on engaging female students and those from underrepresented backgrounds. Utilizing the framework of Technological Pedagogical Content Knowledge (TPACK), the PD design was iteratively refined based on teacher feedback and artifact analysis. We conducted a retrospective, qualitative analysis to identify core PD characteristics and their evolution. Our findings reveal how PD content evolved across dimensions of the TPACK framework, with the fifth year achieving a balanced distribution of components. This study contributes to understanding effective design principles for elementary CS teacher PD and highlights the importance of researcher-teacher partnerships in building a community of elementary CS educators. 

   more » « less
3. Data Fusion Insights on Indigenous-Serving Teachers’ Implementation of Culturally Responsive Computing

   https://doi.org/10.70725/759223rdbocc  

   Yan, Wei; Parekh, Priyanka; Amresh, Ashish; Prescott, Paige (January 2025, Journal of Technology and Teacher Education)

   Indigenous communities remain among the most underrepresented groups in computing and STEM fields, facing systemic barriers to equitable participation in computer science (CS) education. This study examines how Indigenous-serving teachers, through a sustained professional development (PD) program, design and implement culturally responsive computing (CRC) curricula in Indigenous-serving schools. Guided by the research question: How does sustained CS professional development inform the design of culturally responsive computing curricula by experienced CS teachers in Indigenous-serving schools? We employed a natural language processing (NLP) data fusion approach that integrates text mining and qualitative thematic analysis to investigate how teachers incorporate Indigenous knowledge into computing instruction. Our findings reveal three emergent themes in teacher learning and lesson design: Creating opportunities to access culture through computation, Leveraging Research and Critical Thinking Skills to Critically Engage Students with Computing, and Reflection, refinement, and professional growth through ongoing collaboration. These themes underscore the impact of CRC on bridging cultural traditions with computing, fostering engagement, and enhancing Indigenous students’ sense of belonging in CS. By supporting teachers in developing culturally relevant lessons that integrate storytelling, traditional arts, and computational thinking, this research contributes to the broader discourse on inclusive CS education. This study informs future efforts to expand Indigenous student participation in computing by highlighting the role of culturally sustaining pedagogy in professional development and curriculum design. 

   more » « less
4. Advancing Opportunities for CS Teachers: How to Best Support Professional Development for Experienced Teachers in K-12 CS Education.

   Kafai, Y.B. (April 2022, Proceedings of the 53rd ACM Technical Symposium on Computer Science Education)

   In K-12 education, nearly all efforts focused on expanding computer science education center on the induction of new computer science teachers, with very little attention given to support the ongoing needs of experienced computer science teachers. This panel discussed the needs of experienced CS teachers from a variety of perspectives, including teacher education researchers, professional development leaders, and high school practitioners and teacher facilitators. The panel collectively outlined a research and practice agenda that focuses on supporting, retaining, and further developing experienced teachers through expanded professional development, leadership opportunities, and community for CS teachers. 

   more » « less
5. A State-Wide Effort to Provide Access to Authentic Computer Science Education to Underrepresented Populations

   https://doi.org/10.1145/3328778.3366955  

   Qazi, Mohammed A.; Gray, Jeff; Shannon, David M.; Russell, Melody; Thomas, Misty (February 2020, SIGCSE '20: Proceedings of the 51st ACM Technical Symposium on Computer Science Education)

   The Exploring Computer Science (ECS) curriculum provides foundational knowledge of Computer Science (CS) to high school students as a stand-alone course. ECS began in the Los Angeles Unified School District in the late 2000s where it gained eminence for broadening participation in computing (BPC), with Latinx students representing over 70% of enrollment. This experience report describes a partnership that consists of three Universities, dozens of school districts, the ECS team, and other stakeholders to bring the ECS curriculum in mainly rural school districts in Alabama that have a majority African-American student population. Sixty in-service teachers (one teacher per school) have received professional learning opportunities to gain knowledge and skills to teach ECS. Signs of early broader impacts are emerging: 78% of our ECS enrollment are underrepresented minority (URM) students with nearly half of the cohort consisting of female students. Students reported they were engaged in working collaboratively and sharing responsibilities with others. Furthermore, students who reported being more involved in the ECS course had deeper confidence in their ability to succeed in CS, reported greater overall outcomes, had more confidence in development of 21st century skills, found the course more relevant, were more motivated to persist in CS, and exhibited increased interest in CS careers. We provide a comprehensive description of the partnership’s accomplishments and the evaluation findings on student CS experiences and on teacher self-efficacy in ECS preparation and instruction. Our findings contribute to the BPC literature, specifically for schools with predominantly African-American enrollment in rural communities. 

   more » « less