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1. Work in Progress: Development of a Training Program to Prepare Students for an Immersive Bioinformatics Summer Research Experience

   Chapman, MA (July 2021, 2021 American Society for Engineering Education Virtual Annual Conference)

   null (Ed.)

   The publication of the first human genome in 2001 transformed biomedical research. Since then, an explosion of new sequencing technologies has required engineers and computer scientists to invent computational methods to analyze and interpret the ever-growing data. Now, large-scale biological data encompasses many types of ‘omics’ datasets, including genomes, transcriptomes, proteomes and metabolomes, and each of these new datasets has created a new set of analytical challenges. To meet this need, the field of bioinformatics has expanded significantly, but there is still a large need for engineers and scientists to work in this inherently interdisciplinary field. Properly trained bioinformaticians have expertise in computer science/engineering and understand the biological and medical context underlying their work. Therefore, the development of robust bioinformatics training programs is critical to educate the next generation of bioinformaticians. Although undergraduate degree programs in bioinformatics exist, providing students with hands-on bioinformatics skills through immersive research experiences is necessary to prepare students for graduate work. Thus, this work describes a recently funded NSF – International Research Experience for Students (IRES) site: US-Sweden Clinical Bioinformatics Research Training Program targeted at training students from diverse educational backgrounds to prepare them for authentic bioinformatics research experiences. Given the inherent interdisciplinary nature of bioinformatics, it is extremely difficult to design a training program that prepares students from different backgrounds (computer science, bioengineering, computational biology, biology) to be successful in a bioinformatics research group. Therefore, this ‘Work-in-Progress’ describes the pre-departure training program developed for this IRES site and the initial lessons learned. 

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2. US-Sweden Bioinformatics IRES: Investigating Engineering Students’ Attitudes and Perspectives Throughout a 10-week International Research Program

   Chapman, Mark A; Forbes, Marissa H. (July 2022, 2022 American Society for Engineering Education Annual Conference & Exposition)

   The US-Sweden Clinical Bioinformatics Research Training Program is an NSF-funded International Research Experience for Students (IRES) program that aims to develop a diverse cohort of globally competent and engaged scientists/engineers that seek career opportunities and collaborators throughout the world. The program consists of a six-week preparatory virtual training series, a 4-day pre-departure symposium at the University of San Diego and a ten-week research program on site at the Science for Life Laboratory in Stockholm, Sweden. The focus of this paper is to examine student attitudes and perspectives during their time abroad through an analysis of blog entries. In Summer 2021, six engineering undergraduates—three women and three men—participated in the inaugural program session. Over the course of the ten-week program, the students completed blog posts in response to four prompts related to their experiences, observations, and challenges. In this paper, we present a qualitative analysis of the student blogs using a hybrid deductive and inductive thematic analysis approach. Our findings span two primary categories: professional and personal. 

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3. Impacts of a Sustainability-Focused REU Site on Student Products and Career Trajectory for Underrepresented Groups in Engineering

   Wittich, C.E.; Bartelt-Hunt, S. (June 2022, 2022 ASEE Annual Conference & Exposition)

   This paper summarizes the overall approach and assessment of a National Science Foundation Research Experience for Undergraduates Site focused on sustainable civil and environmental infrastructure in rural areas. This site has hosted over 60 students over 5 years, including 1 year of virtual participation due to travel restrictions associated with the COVID-19 pandemic. Detailed discussion and results are provided with respect to the recruitment approach, including particular attention to first-generation college students, and the potential negative impacts of the COVID-19 pandemic on first-generation applicants. This site also incorporates targeted instruction on technical writing, which occurs over several weeks throughout the first half of the summer and culminates with a final conference paper deliverable. This approach has yielded over 20 peer-reviewed journal articles, conference papers, or national conference presentations, which have been co-authored by the undergraduate student participants. External evaluation of this site has included both formative and summative assessments, including pre-program, mid-program, and post-program surveys and focus groups, which has enabled a successful continuous improvement cycle, in which cohort-building activities, technical writing deliverables, and mentor training have been gradually incorporated or enhanced. Results of this assessment have also been used to quantify the site’s success with respect to student exposure and interest in research and graduate education. In addition to most participants persisting in STEM fields, many have gone on to pursue graduate school in civil and environmental engineering and win national fellowships. 

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4. US-Japan NSF IRES Program for Developing Portable Point-of-Care Testing Devices: Preparation and Experiences of Year 1

   https://doi.org/10.18260/1-2-1139-49362  

   Ryu, Sangjin; Deters, Jessica; Janecek, Jonathan; Sunderland, Christian; Wagner, Laurel S; Wagner, Rachael (September 2024, ASEE Conferences)

   The International Research Experiences for Students (IRES) program of the National Science Foundation (NSF) focuses on developing a diverse, globally engaged STEM workforce through international research experiences. This NSF IRES project aims to develop a portable point-of-care testing (POCT) device for efficient detection of infectious pathogens by integrating microfluidic devices and a filter-free wavelength Complementary Metal-Oxide-Semiconductor (CMOS) optical sensor in a portable platform. The program supports an 8-week-long summer research experience at Toyohashi University of Technology (TUT) in Japan for a cohort of undergraduate and graduate students. This paper reports on the first year of the program. 

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5. Development and contribution to students’ intercultural skills: A case study of an international collaborative site.

   Jalali, Y.; Lohani, V.; Müller, R. (January 2019, Proceedings of the 2019 IEEE Frontiers in Education Conference)

   This work-in-progress research paper presents our experiences with a NSF-sponsored International Research Experiences for Undergraduates (IRES) program hosted by an a large land grant university in the United States. A major component of the program is implemented at an international laboratory in China. The lab has been established in 2010 as a collaborative research platform, for a large land-grant university in the U.S. and a public comprehensive university, to study the biosonar sensing and flight of bats from an engineering perspective. The lab has pioneered work on the diversity and dynamics of the structures (noseleaves and ears) that bats use to emit and receive ultrasonic pulses In addition, the lab has hosted research experiences for international (primarily U.S.) students and collaborative BS/MS and MS/PhD educational programs. In the last two years, two cohorts of IRES scholars completed the 10-week IRES program. In addition to research and technical experiences, the IRES students participated in several field trips and seminars and were exposed to Chinese culture. To better understand the impact of the program, students were invited to complete pre- and post-program surveys and a post-program interview. The surveys included cultural intelligence assessment, Global Competency Activity, and Sojourn Readiness Assessment. In addition, students answered a few open-ended questions about their technical and cultural experiences. In this paper, we first explain the history of the lab and its research and educational contribution to date. Then, we describe the IRES program and program evaluation measures. Finally, we focus on the influence of the program on students’ intercultural skills and present the assessment results. 

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