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1. Student Perceptions of the Complete Online Transition of Two CS Courses in Response to the COVID-19 Pandemic

   Farghally, M. F. (July 2021, 2021 ASEE Virtual Annual Conference Content Access, Virtual Conference)

   null (Ed.)

   Student perceptions of the complete online transition of two CS courses in response to the COVID-19 pandemic Due to the COVID-19 pandemic, universities across the globe switched from traditional Face-to-Face (F2F) course delivery to completely online. Our university declared during our Spring break that students would not return to campus, and that all courses must be delivered fully online starting two weeks later. This was challenging to both students and instructors. In this evidence-based practice paper, we present results of end-of-semester student surveys from two Spring 2020 CS courses: a programming intensive CS2 course, and a senior theory course in Formal Languages and Automata (FLA). Students indicated course components they perceived as most beneficial to their learning, before and then after the online transition, and preferences for each regarding online vs. F2F. By comparing student reactions across courses, we gain insights on which components are easily adapted to online delivery, and which require further innovation. COVID was unfortunate, but gave a rare opportunity to compare students’ reflections on F2F instruction with online instructional materials for half a semester vs. entirely online delivery of the same course during the second half. The circumstances are unique, but we were able to acquire insights for future instruction. Some course components were perceived to be more useful either before or after the transition, and preferences were not the same in the two courses, possibly due to differences in the courses. Students in both courses found prerecorded asynchronous lectures significantly less useful than in-person lectures. For CS2, online office hours were significantly less useful than in-person office hours, but we found no significant difference in FLA. CS2 students felt less supported by their instructor after the online transition, but no significant difference was indicated by FLA students. FLA students found unproctored online exams offered through Canvas more stressful than in-person proctored exams, but the opposite was indicated by CS2 students. CS2 students indicated that visual materials from an eTextbook were more useful to them after going online than before, but FLA students indicated no significant difference. Overall, students in FLA significantly preferred the traditional F2F version of the course, while no significant difference was detected for CS2 students. We did not find significant effects from gender on the preference of one mode over the other. A serendipitous outcome was learning that some changes forced by circumstance should be considered for long term adoption. Offering online lab sessions and online exams where the questions are primarily multiple choice are possible candidates. However, we found that students need to feel the presence of their instructor to feel properly supported. To determine what course components need further improvement before transitioning to fully online mode, we computed a logistic regression model. The dependent variable is the student's preference for F2F or fully online. The independent variables are the course components before and after the online transition. For both courses, in-person lectures were a significant factor negatively affecting students' preferences of the fully online mode. Similarly, for CS2, in-person labs and in-person office hours were significant factors pushing students’ preferences toward F2F mode. 

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2. Role of course and individual characteristics in the course-level persistence of online undergraduate engineering students: A path analysis.

   https://doi.org/10.52202/066488-0036  

   Kittur, Javeed; Brunhaver, Samantha; Bekki, Jennifer; Lee, Eunsil (January 2021, Research in Engineering Education Symposium & Australasian Association for Engineering Education Conference)

   Online learning is increasing in both enrollment and importance within engineering education. Online courses also continue to confront comparatively higher course dropout levels than face-to-face courses. This research paper thus aims to better understand the factors that contribute to students’ choices to remain in or drop out of their online undergraduate engineering courses. Path analysis was used to examine the impact of course perceptions and individual characteristics on students’ course-level persistence intentions. Specifically, whether students' course perceptions influenced their persistence intentions directly or indirectly, through their expectancies of course success, was tested. Data for this study were collected from three ABET-accredited online undergraduate engineering programs at a large public university in the Southwestern United States: electrical engineering, engineering management, and software engineering. A total of 138 students participated in the study during the fall 2019 (n=85) and spring 2020 (n=53) semesters. Participants responded to surveys twice weekly during their 7.5-week online course. The survey asked students about their course perceptions related to instructor practices, peer support, and course difficulty level, their expectancies in completing the course, and their course persistence intentions. This work is part of a larger National Science Foundation-funded research project dedicated to studying online student course-level persistence based on both students' self-report data and course learning management system (LMS) activity. The survey sample was consistent with reports indicating that online learners tend to be more diverse than face-to-face learners. Findings from the path analysis revealed that students' perceptions of course LMS fit, perceived course difficulty, and expectancies of course success positively and significantly predicted persistence intentions, making them the most important influences. Expectancies of course success had a direct effect on persistence intentions. The findings underscore the need to elucidate further the mechanisms through which expectancies of success influence persistence. 

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3. Successful Integration of Face-to-Face Bootcamp Lab Courses in a Hybrid Online STEM Program

   https://doi.org/10.1128/jmbe.v20i3.1769  

   Ardissone, Alexandria N; Oli, Monika W; Rice, Kelly C; Galindo, Sebastian; Urrets-Zavalia, Macarena; Wysocki, Allen F; Triplett, Eric W; Drew, Jennifer C (January 2019, Journal of Microbiology & Biology Education)

   The Microbiology and Cell Science program at the University of Florida compressed two standard 16-week lab courses into five-day versions of the course, which are referred to as bootcamp labs. The bootcamp labs have the same objectives, activities, and assessments as their traditional counterparts. Development of the bootcamp labs was part of a larger effort to increase access to the major, and more broadly STEM, by offering a 2+2 hybrid online transfer program. The results of this mixed-methods study include a direct comparison between bootcamp and traditional lab format as an approach for delivery of a face-to-face lab course. The bootcamp lab cohort has a greater diversity of students, with more women and underrepresented minorities in STEM than the traditional semester-long cohorts. Students in the bootcamp labs have comparable grade outcomes and learning gains to students in traditional lab format. Regression analysis identified GPA, but not lab format, as the most significant predictor of success for students enrolled in lab courses. Qualitative results suggest that the bootcamp format may be a better way than traditional formats to teach microbiology lab. In summary, the results demonstrate that a bootcamp version of a face-to-face microbiology course is just as effective as the traditional semester-long version. This work has broader implications as it supports the bootcamp lab approach as a model in STEM education for increasing access and for overcoming a major barrier to online STEM programs: face-to-face delivery of key lab courses. 

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4. Impact of Transitions between Online and Offline Learning During COVID-19 on Computational Curricular Reform: Student Perspective

   Dan, Yang; Schleife, Andre; Trinkle, Dallas; Huang, Pinshane; Cecilia Leal (August 2022, ASEE annual conference exposition)

   Computational methods have gained importance and popularity in both academia and industry for materials research and development in recent years. Since 2014, our team at University of Illinois at Urbana-Champaign has consistently worked on reforming our Materials Science and Engineering curriculum by incorporating computational modules into all mandatory undergraduate courses. The outbreak of the COVID-19 pandemic disrupted education as on-campus resources and activities became highly restricted. Here we seek to investigate the impact of the university moving online in Spring 2020 and resuming in-person instructions in Fall 2021 on the effectiveness of our computational curricular reform from the students' perspective. We track and compare feedback from students in a representative course MSE 182 for their computational learning experience before, during and after the pandemic lockdown from 2019 to 2021. Besides, we survey all undergraduate students, for their online learning experiences during the pandemic. We find that online learning enhances the students' belief in the importance and benefits of computation in materials science and engineering, while making them less comfortable and confident to acquire skills that are relatively difficult. In addition, early computational learners are likely to experience more difficulties with online learning compared to students at late stages of their undergraduate education, regardless of the computational workload. Multiple reasons are found to limit the students' online computational learning, such as insufficient support from instructors and TAs, limited chances of peer communication and harder access to computational resources. Therefore, it is advised to guarantee more resources to students with novice computational skills regarding such limiting reasons in the future when online learning is applied. 

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5. There and Back Again: Lessons Learned from Facilitated Faculty Discussions on the Move Online and then Back Face to Face

   https://doi.org/10.18260/1-2--41357  

   Thomas, Shawna; Hammond, Tracy; Shryock, Kristi; Brooks, Randy; Jaison, Donna; White, Lance; Lightfoot, Robert (August 2022, 2022 ASEE Annual Conference & Exposition)

   In this Lessons Learned paper, we explore the themes uncovered from a series of facilitated faculty discussions on moving their course back to face to face teaching after the switch to online. The Institute at Anonymous University administrates over 100 faculty whose primary department appointments and teaching assignments are in either engineering or education. Over the last two years, the Institute hosted numerous conversations for faculty members to share experiences, research, and assessments of teaching successes and concerns as they changed instructional modalities, both with the initial move online and the subsequent move back face to face. From these conversations, faculty agree that some things during the move to online instruction, such as office hours, video archives of lectures, and some activities in break-out rooms appear to enhance student learning. Yet data showed that students believed the online experience was less desirable than face to face courses. Now that we have had a near complete semester where most classes were required to be held in the face to face mode, we are hosting conversations with faculty to understand the changes they are now making to their teaching because of the experiences from online instruction. 

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