skip to main content

Explore Research Products in the NSF-PAR

  • NSF Public Access
  • Search Results
  • Wind River Elementary Computer Science Collaborative: Connecting Computer Science and Indigenous Identities and Knowledges on the Wind River Reservation

This content will become publicly available on September 21, 2024

Title: Wind River Elementary Computer Science Collaborative: Connecting Computer Science and Indigenous Identities and Knowledges on the Wind River Reservation
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.  more » « less
Award ID(s):
1923375
NSF-PAR ID:
10473782
Author(s) / Creator(s):
; ; ;
Publisher / Repository:
Journal of Computer Science Integration
Date Published:
Journal Name:
Journal of Computer Science Integration
ISSN:
2574-108X
Format(s):
Medium: X
Sponsoring Org:
National Science Foundation
More Like this
  1. ; ; ( , SIGCSE 2023: Proceedings of the 54th ACM Technical Symposium on Computer Science Education V. 2)
    Doyle, Maureen ; Stephenson, Ben. (Ed.)
    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. 
    more » « less
  2. ; ; ; ; ( , The intersection of RPPs and BPC in CS education: A culmination of papers from the RPPforCS Community)
    Background: Researcher-practitioner partnerships (RPPs) have gained increasing prominence within education, since they are crucial for identifying partners’ problems of practice and seeking solutions for improving district (or school) problems. The CS Pathways RPP project brought together researchers and practitioners, including middle school teachers and administrators from three urban school districts, to build teachers’ capacity to implement an inclusive computer science and digital literacy (CSDL) curriculum for all students in their middle schools. Objective: This study explored the teachers’ self-efficacy development in teaching a middle school CSDL curriculum under the project’s RPP framework. The ultimate goal was to gain insights into how the project’s RPP framework and its professional development (PD) program supported teachers’ self-efficacy development, in particular its challenges and success of the partnership. Method: Teacher participants attended the first-year PD program and were surveyed and/or interviewed about their self-efficacy in teaching CSDL curriculum, spanning topics ranging from digital literacy skills to app creation ability and curriculum implementation. Both survey and interview data were collected and analyzed using mixed methods 1) to examine the reach of the RPP PD program in terms of teachers’ self-efficacy; 2) to produce insightful understandings of the PD program impact on the project’s goal of building teachers’ self-efficacy. Results and Discussion: We reported the teachers’ self-efficacy profiles based on the survey data. A post-survey indicated that a majority of the teachers have high self-efficacy in teaching the CSDL curriculum addressed by the RPP PD program. Our analysis identified five critical benefits the project’s RPP PD program provided, namely collaborative efforts on resource and infrastructure building, content and pedagogical knowledge growth, collaboration and communication, and building teacher identity. All five features have shown direct impacts on teachers' self-efficacy. The study also reported teachers’ perceptions on the challenges they faced and potential areas for improvements. These findings indicate some important features of an effective PD program, informing the primary design of an RPP CS PD program. 
    more » « less
  3. ; ; ; ; ; ( , The intersection of RPPs and BPC in CS education: A culmination of papers from the RPPforCS Community)
    CSforALL & SageFox Consulting Group (Ed.)
    Research-practitioner partnership (RPP) projects using approaches such as design-based implementation research (DBIR), seek to build organizational infrastructure to develop, implement, and sustain educational innovation [19]. Infrastructure consists of the practices and objects that support educational practice. Infrastructure constitutes human and material resources and structures that support joint work [18,29]. Although RPP literature has identified co-design as an infrastructure-building approach, to the best of our knowledge, specific techniques for managing co-design and other infrastructure building practices are still lacking [9,18,23]. Without such tools, RPP partners' varied backgrounds, workplace norms, and priorities can produce behaviors that may be normal in the context of a single organization but can impede communication, resource access, and innovation implementation in a collaborative context. The NSF-funded Computer Science Pathways RPP (CS Pathways) project's DBIR approach uses co-design of a culturally responsive middle school CS curriculum to develop infrastructure for providing high-quality CS education across three urban school districts. The curriculum focuses on developing mobile apps for social good and will be taught by teachers with varied CS experience in varied classroom contexts (e.g., civics, science). The purpose of this workshop paper is to demonstrate a technique, namely Manager Tools One-on-one meetings [15], adapted by CS Pathways partners to manage the co-design process. O3s have six features: they are frequent; scheduled; 15 to 30 minutes in duration; held with all participants working on a specified project; semi-structured; and documented by the manager or researcher. This workshop paper describes how to use O3s to engage teachers and researchers in developing collaborative infrastructure to promote shared exploration of feedback and build and sustain partnerships. 
    more » « less
  4. ; ; ; ; ( , NARST)
    Female and racially minoritized groups continue to be underrepresented in computer science (CS) and STEM careers, despite ongoing efforts to diversify the field. One way to promote the success of minoritized students in CS education is to incorporate culturally relevant pedagogy (CRP) into CS curriculum and instruction. This work explores the ways that teachers integrated CRP in their lesson plans after participating in CRP-focused professional development (PD) sessions delivered during a week-long PD aimed at improving and diversifying CS education. Our analysis of the lesson plans reveals that teachers integrated CRP at levels ranging from superficial to foundational. At the superficial level, teachers treated CRP as an “add-on” strategy with minimal relevance to the lesson content. At the foundational level, CRP was central to student mastery of core content learning. This work contributes to our understanding about how teachers approach the concept of relevance when integrating CRP in CS education. Findings have implications for approaches to PD design that support teachers in integrating CRP in CS education, as well as other STEM classrooms. 
    more » « less
  5. ; ; ; ; ; ; ; ( , 2019 Research on Equity and Sustained Participation in Engineering, Computing, and Technology (RESPECT))
    A key strategy for broadening CS participation in the Chicago Public Schools (CPS) has been the enactment of a high school CS graduation requirement. The Exploring Computer Science (ECS) curriculum and professional development (PD) program serve as a core foundation for supporting enactment of this policy. The CAFECS researcher-practitioner partnership provides support for ECS implementation in CPS. An important part of the sustainability of the ECS PD model in CPS is the development of local workshop facilitators. Potential facilitators have generally been selected based on the CAFECS team's personal familiarity with active ECS teachers. Once selected, teachers engage in a two-year apprenticeship program to become facilitators. However, in the three years since the enactment of the policy, the number of ECS teachers and students has grown significantly. This rapid expansion of the CS teaching force has strained the ability to confidently identify new facilitators from a large pool of teachers and ensure consistency of workshop implementation. As a result, CAFECS is exploring how to supplement the ECS Facilitator Development Model through a proactive recruitment model and explicit support for the mentoring process. 
    more » « less
  • Citation Formats
  • MLA
  • APA
  • Chicago
  • BibTeX
  • Save / Share this Record
  • Send to Email