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1. Work in Progress: Fostering Team Science in an Engineering Education Research Team

   Valdes-Vasquez, R; Sanford, K L; Paige, F; Parker, P J (June 2024, ASEE)

   This poster displays results from a project supported by an NSF grant to enhance interdisciplinary collaboration in civil and environmental engineering education. In its second year, part of the project focused on improving team science competencies within the core research group. Key activities included workshops on collaborative writing and grant writing best practices. The team attended a Science of Team Science (SciTS) workshop to refine collaboration skills and responded to the Teaming Readiness Survey, which revealed strengths in valuing expertise but identified areas for improvement, such as role clarity and effective communication. In addition, the team responded to a Social Network Analysis Survey that showcased a growing network of research ties, indicating a robust collaborative environment, particularly among Principal Investigators. The preliminary results highlight a development in the team’s effectiveness and psychological safety ratings, fostering trust and collaboration. The social network evolved from professional to social connections, with new members gradually integrating into the team. The research team concludes that focusing on collaborative skills and effective communication strengthens interdisciplinary collaboration in the changing scientific landscape. 

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2. Supporting Speech-Language Pathologists in Schools With Interdisciplinary Team Science: A Viewpoint From the National Artificial Intelligence Institute for Exceptional Education

   https://doi.org/10.1044/2025_LSHSS-24-00113  

   Miller, Carol A; Meadan, Hedda; Olszewski, Abbie; Kientz, Julie A; Xiong, Jinjun (April 2025, Language, Speech, and Hearing Services in Schools)

   Purpose:Complex scientific problems, including those facing the discipline of communication sciences and disorders (CSD), require interdisciplinary teams of scientists who bring diverse perspectives, knowledge, and skills. According to a recent survey, team science is not yet widely practiced by CSD researchers. This viewpoint describes a current interdisciplinary team science project that addresses a challenging problem for CSD practitioners: meeting the needs of young children with speech and language disabilities for screening and intervention using artificial intelligence–augmented technologies. Method:The article draws from the research literature on the science of team science to describe common challenges faced by interdisciplinary teams and recommended practices to resolve the challenges. Throughout, we provide examples from the National Artificial Intelligence Institute for Exceptional Education to illustrate team science challenges and how they can be addressed. Conclusions:Readers are encouraged to embrace interdisciplinary teamwork to advance the science of CSD. We recommend seeking out training in team science, advocating for professional development opportunities, and institutional support for team science to maximize its benefits for the field. 

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3. Learning Each Other’s Language and Building Trust: Community-Engaged Transdisciplinary Team Building for Research on Human Trafficking Operations and Disruption

   https://doi.org/10.1177/16094069221101966  

   Martin, Lauren; Gupta, Mahima; Maass, Kayse L.; Melander, Christina; Singerhouse, Emily; Barrick, Kelle; Samad, Tariq; Sharkey, Thomas C.; Ayler, Tonique; Forliti, Teresa; et al (January 2022, International Journal of Qualitative Methods)

   Background: Human trafficking for sexual exploitation (referred to as sex trafficking) is a complex global challenge that causes harm and violates human rights. Most research has focused on victim-level harms and experiences, with limited understanding of the networks and business functions of trafficking operations. Empirical evidence is lacking on how to disrupt trafficking operations because it is difficult to study; it is hidden and dangerous, spans academic disciplinary boundaries, and necessitates ways of knowing that include lived experience. Collaborative approaches are needed, but there is limited research on methods to best build transdisciplinary teams. Aim: The aim of this study was to understand how to form a community-engaged transdisciplinary research team that combines qualitative and operations research with a survivor-centered advisory group. Methods: We conducted a qualitative meta-study of our team that is seeking to mathematically model sex trafficking operations. Data were collected from the minutes of 16 team meetings and a survey of 13 team members. Results: Analysis of meeting minutes surfaced four themes related to content and style of communication, one related to value statements, and one capturing intentional team building efforts. Survey results highlighted respect, trust, integrity, openness and asking and answering questions as key aspects of team building. Results show that an action research approach to team building, focused on trust and communication, fostered effective collaboration among social scientists, operations researchers, and survivors of trafficking. Conclusion: Team building, shared language, and trust are essential, yet often neglected, elements of team science. This meta-study provides important methodological insights on community engaged transdisciplinary team formation to tackle vexing social challenges. 

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4. Teaching Team Collaboration in Cybersecurity: A Case Study from the Transactive Memory Systems Perspective

   https://doi.org/10.1109/EDUCON46332.2021.9453894  

   Yoon, Kay; Chang, Sang-Yoon (April 2021, IEEE Global Engineering Education Conference (EDUCON))

   Recent trends in the cybersecurity workforce have recognized that effective solutions for complex problems require collective efforts from individuals with diverse sets of knowledge, skills, and abilities. Therefore, the growing need to train students in team collaboration skills propelled educators in computer science and engineering to adopt team-based pedagogical strategies. Team-based pedagogy has shown success in enhancing students' knowledge in course subjects and their motivation in learning. However, it is limited in offering concrete frameworks specifically focusing on how to teach team collaboration skills. As part of an interdisciplinary effort, we draw on Transactive Memory Systems Theory-a communication theory that explains how individuals in groups learn who knows what and organize who does what-in developing a Team Knowledge Sharing Assignment as a tool for student teams to structure their team collaboration processes. This paper reports a result of a case study in designing and facilitating the assignment for cybersecurity students enrolled in a scholarship program. Students' evaluations and the instructor's assessment reveal that the assignment made a positive impact on students' team collaboration skills by helping them successfully identify their team members' expertise and capitalize on their team's knowledge resources when delegating functional roles. Based on this case study, we offer practical suggestions on how the assignment could be used for various classes or cybersecurity projects and how instructors could maximize its benefits. 

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5. Evaluating Collaborative Readiness for Interdisciplinary Flood Research

   Tate, E.; Decker, V.; Just, C. (December 2018, Risk analysis)

   Increasing trends in global flood risk are driven by a complex web of interactions among natural, built environment, and social systems. As a result, flood resilience research is an ideal topic for an interdisciplinary approach. Core characteristics of interdisciplinary research are team collaboration and the systematic integration of disciplinary knowledge, in both problem formulation and analytical methods. Indicators of interdisciplinarity tend to focus on scholarly outcomes, but collaborative processes may be even more important for knowledge integration. In this Perspective piece, we outline and advocate a two‐pronged approach to enhance potential for integrating knowledge: using collaborative proximity to assess team readiness to conduct interdisciplinary research and employing program evaluation to assess change in proximity components over time. To do so, we draw on scholarship in economic geography, team science, and program evaluation. We then connect the findings to a case study of collaboration within our interdisciplinary team of flood researchers, program evaluators, and local stakeholders, as we navigate a multi‐institutional project on flood resilience. 

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