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1. SOCIOTECHNICAL SYSTEMS PERSPECTIVE OF URM STUDENT SUCCESS AT A PREDOMINANTLY WHITE INSTITUTION

   Pennathur, Arunkumar; Pennathur, Priyadarshini; Blosser, Emily; Bowman, Nicholas (June 2023, 2023 ASEE Annual Conference and Exposition)

   The overall objective of this project funded by the NSF-IUSE program is to employ a sociotechnical systems lens and framework and identify and evaluate organization-wide capacities and change catalysts in a predominantly white institution's college of engineering. The college of engineering is viewed as a sociotechnical organization with social and technical subsystems. The social subsystem models who talks to whom about what. The technical subsystem models the main activities and programs in the organization. Our project aims to: (1) assess the technical system’s capacity to support recruitment and retention through a technical system analysis; (2) assess the social system’s capacity to support recruitment and retention through a social system analysis; and (3) generate systemwide catalysts for URM student success. We conducted semi-structured hour-long interviews with 38 stakeholders including students, faculty, administrators and staff from various departments and student organizations within and outside the college. We are qualitatively analyzing the interview data to identify technical and social system barriers and enablers. Data analysis is ongoing, but our preliminary findings and insights are as follows: (1) social system barriers for URM students were interactions with peers in classroom environment (leading to a sense of isolation and a lack of belonging), interactions with faculty and staff especially in relating to their needs and being empathetic, and familial concerns and being able to support their family financially. (2) interactions with their friends was the top social system enabler for URM students. Family also provided them comfort and solace while attending to the rigors of college. They also felt that living at home would alleviate some of the financial burdens they faced. (3) the lack in numbers (and hence the lack of diversity and identity), curricular and instructional methods, and high school preparation were cited as the most important technical system barriers these students faced. (4) students identified as technical system enablers the professional development opportunities they had, their participation in students organizations, particularly in identity-based organizations such as NSBE, SHPE and WISE, and how that helped them forge new contacts and provided emotional support during their stay here. (5) there is recognition among the administrators and the staff working with URM students that diversity is important in the student body and that the mission of enabling URM student success is important, although the mission itself with respect to URM students is somewhat poorly defined and understood. 

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2. Sociotechnical Systems View of Catalysts that Enable Underrepresented Minority Student Success

   https://doi.org/10.1177/1071181322661011  

   Pennathur, Priyadarshini; Quiroz, Brissa; Bisantz, Ann; Everett, Louis; Pennathur, Arunkumar (September 2022, Proceedings of the Human Factors and Ergonomics Society Annual Meeting)

   Academic institutions in the US have recently refocused their attention on Diversity, Equity, and Inclusion. This panel consisting of engineering faculty, administrators and industry professionals will discuss how colleges of engineering can approach the problem of recruiting, retaining, and graduating undergraduate underrepresented minority (URM) students by using a sociotechnical systems modeling approach. The main thrust of the discussion is how an academic organizational system such as a college of engineering can be broken down into a social system consisting of the people (students, faculty, staff and other stakeholders), and a technical system consisting of programs and initiatives for URM student success. Joint analyses of the social system and the technical system can then reveal systemwide barriers and opportunities for enabling URM student success. 

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3. Understanding Barriers and Facilitators to Living Kidney Donation Within a Sociotechnical Systems Framework

   https://doi.org/10.1177/10497323231224706  

   Crenshaw, Rachel; Woods, Cary; Koizumi, Naoru; Dave, Hitarth S; Gentili, Monica; Saleem, Jason J (June 2024, Qualitative Health Research)

   The objective of this study was to investigate factors influencing one’s decision to become a live kidney donor under the framework of sociotechnical systems, by expanding the focus to include larger organizational influences and technological considerations. Semi-structured interviews were conducted with live kidney donors who donated through University of Louisville Health, Trager Transplant Center, a mid-scale transplant program, in the years 2017 through 2019. The interview transcripts were analyzed for barriers and facilitators to live kidney donation within a sociotechnical system. The most salient facilitators included: having an informative, caring, and available care team; the absence of any negative external pressure toward donating; donating to a family or friend; and the ability to take extra time off work for recovery. The most recurrent barriers included: short/medium-term (<1 year) negative health impacts because of donation; the need to make minor lifestyle changes (e.g., less alcohol consumption) after donation; and mental health deterioration stemming from the donation process. The sociotechnical systems framework promotes a balanced system comprised of social, technical, and environmental subsystems. Assessing the facilitators and barriers from the sociotechnical system perspective revealed the importance of and opportunities for developing strategies to promote integration of technical subsystem, such as social media apps and interactive AI platforms, with social and environmental subsystems to enable facilitators and reduce barriers effectively. 

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4. Integrating Social Justice and Political Engagement into Engineering

   https://doi.org/10.24908/ijesjp.v7i1.13568  

   Niles, Skye; Roudbari, Shawhin; Contreras, Santina (January 2020, International Journal of Engineering, Social Justice, and Peace)

   Many engineering activists have emphasized the need to reframe engineering as a sociotechnical field in order to expand engineers' contributions to social justice and peace. Yet, reframing engineering as sociotechnical does not always lead to critical engagement with social justice. We provide several examples of how “social” aspects have been brought into engineering in a depoliticized manner that limits engagement with political and social justice goals. We link these examples to Cech’s three pillars of the “culture of disengagement” in engineering: social/technical dualisms, meritocracy, and depoliticization. We argue that reframing engineering as sociotechnical addresses the first pillar, the social/technical dualism, but does not necessarily include the second and third pillars. We propose that all three pillars can be addressed through integrating explicit attention to political engagement and social justice in efforts to reframe engineering as a sociotechnical field. Doing so can increase engineers’ capacity to contribute to social justice and peace. 

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5. Insights and implications from a sociotechnical case study approach in sustainability education

   https://doi.org/10.1108/IJSHE-01-2024-0007  

   Koopman, Kristen; Mosyjowski, Erika A; Daly, Shanna R; Skerlos, Steven J; Syal, Sita M (April 2025, International Journal of Sustainability in Higher Education)

   PurposeThis study aims to investigate the use of a sociotechnical case study as a means of integrating social and technical dimensions into an undergraduate engineering sustainability technical elective course. Design/methodology/approachThe “Big Wind Project” case study used a microhistory approach to engage students in the complexities of sustainable engineering, aiming to facilitate their exploration of the sociotechnical nature of engineering sustainability projects. Focused on a controversial wind energy project in Hawaii, the Big Wind Project case study served as a pedagogical tool in the course for engaging engineering students in complex sustainability challenges. FindingsThirty-nine students who engaged in the case study lesson responded to questions about their perceptions of the case and the role of stakeholders and other social dimensions in engineering decision-making and agreed that we could use their responses in this research. While many students acknowledged the importance of accounting for social dimensions, their discussions frequently reflected a persistent tendency of engineering work to view outcomes through a dualistic technical-vs-social lens rather than an integrated sociotechnical lens. Originality/valueThis study examined how a case study reveals and supports students’ navigation of the complexities of sociotechnical engineering sustainability work. 

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