Search for: All records

Computer science (CS) teachers are still learning how to enact culturally-sustaining/revitalizing CS education for Indigenous students. In response, elementary teachers on the Wind River Reservation, a professional development provider, researchers, and the Wyoming Department of Education formed a researcher-practitioner collaborative to implement and study the implementation of culturally- sustaining/revitalizing CS lessons using design-based implementation research (DBIR) practices. Researchers collected data via interviews, reflection forms, and observations. Findings indicated that teachers used students’ funds of knowledge to support engagement and expanded lessons to reflect Indigenous priorities of language revitalization and Tribal sovereignty. Creating culturally-sustaining/revitalizing CS education was a collective activity, drawing on interdependence of teachers and students. 

The Idaho Elementary Computer Science (CS) Collaborative (IECC) is a researcher-practitioner partnership dedicated to understanding how to better support the predominately rural districts in Idaho to implement elementary CS education. As part of the IECC's work, we conducted a survey of elementary teachers across the state. This poster will present our initial findings. Two of the research questions we addressed via the survey are: (1) What factors would motivate Idaho elementary teachers to pursue professional development (PD) related to CS? (2) What are elementary teachers' perceptions of the value of connecting CS education to rural community economies and industries? Descriptive analyses of 309 survey responses suggest that about three-quarters of elementary teachers reported that the following factors would be at least somewhat influential in their decisions to pursue CS PD: a K-5 computational thinking requirement, a district-wide CS planning staff, a pathway for elementary teachers to earn a certification in CS teaching, and a way to request CS PD funding. Few (9%) Idaho elementary teachers found that the perception of a disconnect between CS education and rural community interests was a significant barrier to elementary CS education. Even so, over 70% of them were moderately to strongly interested in mechanisms for connecting their CS education efforts to rural community industries through guest speakers and industry partnerships. The poster will discuss the implications of these and other emerging findings from the teacher survey, as well as IECC's related surveys of Idaho district superintendents and elementary school principals. 

The Wind River Elementary Computer Science (WRECS) Collaborative is a research-practice partnership (RPP) among three school districts serving Eastern Shoshone and Northern Arapaho communities on the Wind River Reservation, the Wyoming Department of Education (WDE), BootUp Professional Development (BootUp PD), and the American Institutes for Research (AIR). The purpose of the WRECS Collaborative is to develop culturally sustaining elementary computer science (CS) education through integration of CS and Indigenous studies. The Collaborative engaged three cohorts of elementary educators in cycles of professional development, classroom implementation, and group reflection over the 2020-21, 2021-22, and 2022-23 school years. In this experience report, we share a set of reflections and lessons learned as the RPP developed relationships and worked through intersecting priorities, instructional goals, and ways of knowing and learning present within the RPP. 

Three Northern Arapaho and Eastern Shoshone–serving districts formed a researcher–practitioner partnership with the Wyoming Department of Education, the American Institutes for Research®, and BootUp Professional Development to advance the computer science (CS) education of their elementary students in ways that strengthen their Indigenous identities and knowledges. In this paper, we share experiences from 2019 to 2022 with our curriculum development, professional development (PD), and classroom implementation. The researcher–practitioner partnership developed student and teacher materials to support elementary CS lessons aligned to Wyoming’s CS standards and “Indian Education for All” social studies standards. Indigenous community members served as experts to codesign culturally relevant resources. Teachers explored the curriculum resources during three 4-hour virtual and in-person PD sessions. The sessions were designed to position the teachers as designers of CS projects they eventually implemented in their classrooms. Projects completed by students included simulated interviews with Indigenous heroes and animations of students introducing themselves in their Native languages. Teachers described several positive effects of the Scratch lessons on students, including high engagement, increased confidence, and successful application of several CS concepts. The teachers also provided enthusiastic positive reviews of the ways the CS lessons allowed students to explore their Indigenous identities while preparing to productively use technology in their futures. The Wind River Elementary CS Collaborative is one model for how a researcher–practitioner partnership can utilize diverse forms of expertise, ways of knowing, and Indigenous language to engage in curriculum design, PD, and classroom implementation that supports culturally sustaining CS pedagogies in Indigenous communities. 

This study took place in the context of a researcher-practitioner partnership (RPP) between a research organization, the Wyoming Department of Education, and three school districts serving primarily Eastern Shoshone and Northern Arapaho students on the Wind River Reservation. The goal of the RPP is to integrate instruction on the Indian Education for All Wyoming social studies standards with the Wyoming computer science standards in elementary school in ways that are culturally responsive [1]. The project team provided 12 hours of professional development across three sessions, three professional learning community sessions, lesson plans, and model projects. Teachers were expected to implement three coding projects across the school year. The study team collected data via teacher interviews, surveys, and observations of professional development and professional learning community sessions [2]. Three problems of practice that emerged from our preliminary qualitative analysis [3] include: (a) how to support student interest and engagement in computer science especially upon first introduction of a coding platform, (b) how to find time in the school day for computer science and to develop methods for integrating computer science with other subjects, and (c) how to build collaboration across classrooms and districts. The poster will discuss the adaptations teachers made to address the first two problems of practice and the RPP's strategy for addressing the third problem of practice in our next year of implementation. These findings will be of interest to researchers and practitioners working to implement culturally responsive computer science instruction in elementary schools in Indigenous communities. 

Culturally responsive computing (CRC) frames the localized knowledges and practices of Black, Brown, and Indigenous communities as assets for working toward racial justice in science, technology, engineering, and mathematics (STEM). A key part of CRC is the role that local communities play in designing and/or implementing curricula and technologies. Yet, there is a dearth of research on collaborating with local knowledge experts and what they think about CRC. In response, this paper details a two-year-long research project on the design and implementation of one CRC program called pH Empowered. pH Empowered uses computing to bridge Black hairstyling, chemistry, and entrepreneurship. Through a mixed-methods study of one pH Empowered professional development workshop, we show how cosmetologists, urban farmers, and librarians had diverse perspectives about how to be culturally responsive with STEM and the racial justice goal of broadening participation in STEM education.