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1. Teaching Engineering Students to Self-Transform: Parallelisms between Product Innovation and Student Career Path Planning

   Vargas_Hernandez, Noe; Fuentes, Arturo; Ortega, Javier; Lozano, Karen; Marquez, Eleazar (February 2023, 2023 UTRGV STEMED Conference)

   Focus/Problem Statement Freshman engineering students can have a hard time transitioning to college. The freshman year is critical to the students’ academic success; in this year they learn basic skills and establish essential networks with other students, faculty, and resources. How can we help these freshman engineering students in this transition? Theoretical or Conceptual Framework We propose that freshman students can learn from the engineering design innovation process and apply it by analogy to the design of their academic pathways. There are multiple similarities between product innovation (i.e., technology) and the continuous academic challenges faced by the student. Engineers as designers and innovators have a vast and rich repository of techniques, tools, and approaches to develop new technologies, and a parallelism can be drawn between the design and innovation of a technology (e.g., redesign of a kitchen appliance), and the “design” of the students’ academic career pathways. Methodology/Design of the Study or Organization The pilot for the Spring 2023 semester will have Intro to Mechanical Engineering (MECE 1101) students work in teams in a semester-long product innovation project to redesign a simple kitchen appliance. Students will learn theory and methodology of the design process (e.g., creative exploration of solutions, decision making, multi objective evaluation, etc.). These same students will concurrently take UNIV 1301 (Learning Frameworks) where they will have a semester-long project to define their career pathways. Both projects, product innovation and career pathways, will follow the Challenge Based Instruction (CBI) approach. Periodically, a connection will be established between the projects to show the students how to use the lessons from product innovation by analogy and reflection in their career pathways project. The authors believe that the MECE 1101 project initiates a process for students to become innovators and entrepreneurs, while the UNIV 1301 project prepares students as self-innovators for future academic, personal, and professional challenges. Findings/Conclusions In this session, the authors will share their experiences and plan of implementation as well as details from recent NSF IUSE HSI funding for this purpose. The authors expect audience engagement to receive suggestions and ideas to improve freshman student success. 

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2. HSI Implementation and Evaluation Project: THE FRESHMAN YEAR INNOVATOR EXPERIENCE (FYIE): BRIDGING THE URM GAP in STEM

   Vargas_Hernandez, Noe; Ortega, Javier; Lozano, Karen; Marquez, Eleazar; Fuentes, Arturo (June 2024, 2024 ASEE Conference)

   The Freshman Year Innovator Experience (FYIE) program at The University of Texas Rio Grande Valley, a Minority Serving Institution (MSI), aims to enhance the freshman experience for incoming students by developing key academic success skills. The program is developing self-transformation skills in freshman mechanical engineering students to help them overcome academic and professional challenges exacerbated by the COVID-19 pandemic. FYIE participants are taking two courses simultaneously: Introduction to Engineering (Course A) and Learning Frameworks (Course B). In Course A, students will complete a 6-week engineering design project, and in Course B, they are completing a 6-week academic career path project. During these parallel projects, timed interventions demonstrate the analogies between the engineering design process and the academic career pathways project. The objective is for students to realize that they can apply the design thinking skills they learn in the engineering design process to solve their academic career challenges. A pilot of the FYIE program began in the 2023 Spring semester, with instructors from Course A and B introducing the parallel projects. The pilot continues in the 2023 Fall semester, with refinements to the parallel projects and the definition of analogy intervention points for self-transformation. The authors of the paper will present the results from the pilot implementations, as well as discuss the challenges and future work. This proposed initiative is designed with the intention of adhering to the ongoing mission of the College of Engineering and Computer Science (CECS) at the UTRGV to 1) increase the number of STEM degrees awarded to Hispanics, 2) broadening participation of females in STEM related fields, and 3) increase the persistence and self-efficacy in STEM fields amid COVID-19. This project is funded by NSF award 2225247. 

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3. The Freshman Year Innovator Experience (FYIE): Bridging the URM Gap in STEM

   Vargas_Hernandez, Noe; Ortega, Javier; Lozano, Karen; Marquez, Eleazar; Fuentes, Arturo (June 2023, ASEE Conference)

   The project focuses on increasing “effective STEM education and broadening participation” in underrepresented minority (URM) STEM students at the University of Texas Rio Grande Valley (UTRGV) to successfully face academic and professional challenges, recently exacerbated by the COVID-19 pandemic. The Freshman Year Innovator Experience proposes the development of self-transformation skills in freshman mechanical engineering students to successfully face academic and professional challenges exacerbated by the COVID-19 pandemic while working on two parallel projects of technical design innovation and academic career pathways. The authors will present the work in progress and preliminary results from a pilot implementation of the Freshman Year Innovator Experience. This project is funded by NSF award 2225247. 

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4. NSF S-STEM Project Update: A Pathway to Completion for Pursuing Engineering and Engineering Technology Degrees

   https://doi.org/10.18260/1-2--35004  

   Bullington, Kim; Tomovic, Cynthia; Jovanovic, Vukica; Dean, Anthony; Landaeta, Rafael (January 2021, ASEE Virtual Annual Conference Content Access, Virtual On line)

   null (Ed.)

   This poster showcases the progress of students who are receiving scholarships from the National Science Foundation S-STEM project: A Pathway to Completion for Pursuing Engineering and Engineering Technology Degrees. Thus far, 20 academically high-achieving students who demonstrate financial need have participated in the project. Thirty-six scholarships have been awarded to date, in which a maximum of twelve scholarships are awarded per semester; some students have received scholarships multiple times. Students are from electrical engineering, computer engineering, mechanical engineering, civil engineering, civil engineering technology, and modeling and simulation majors. As part of this S-STEM project, students also receive academic support, mentorship related to the development of professional workforce skills, career search skills, and opportunities to participate in industry-related field trips. Role models, many of whom are practicing engineers with STEM degrees and are military veterans, serve as presenters and share their personal career pathways and answer students’ questions in the required one-hour weekly seminar. Although the students participating in this project meet the strenuous academic criteria set by the project (3.0/4.0), many of the students struggle financially, due to having expended their G.I. benefits, which can impede their academic performance and graduation. While many student success programs focus on freshman and sophomore students, what makes this project unique is its focus on enabling student success at the junior and senior years. This project provides a portfolio of different activities for the more mature student, e.g. financial aid through scholarships, community-based learning opportunities, and academic success strategies that enable stronger retention and student completion rates. Project activities are tailored to veterans and adult learners as this group of students is particularly vulnerable given their need to simultaneously juggle academic, family, and financial obligations. 

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5. Empowering Students to be Adaptive Decision-makers: Progress and Directions

   https://doi.org/10.18260/1-2--32205  

   Orr, Marisa K.; Martin, Baker A.; Rucks, Maya; Ehlert, Katherine M. (June 2019, 2019 ASEE Annual Conference & Exposition Proceedings)

   null (Ed.)

   The objective of this EEC project is to help students learn to make academic decisions that lead to success. The research goals are to: 1) identify curriculum-specific patterns of achievement that eventually lead to dropout and corresponding alternative paths that could lead to success; and 2) advance knowledge of self-regulation patterns and outcomes in engineering students. The education goals are to develop curricula and advising materials that help students learn how to effectively self-regulate their decision processes through contextual activities and story prompting. This poster will present current progress and future directions of the project. We will summarize accomplishments on the development of the Self-Regulated Decision-Making instrument, mapping of pathways, and development of the academic dashboard. 

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