More Like this

1. WIP: Development of a Student-Centered Personalized Learning Framework to Advance Undergraduate Robotics Education

   https://doi.org/10.1109/FIE58773.2023.10343234  

   Shill, Ponkoj Chandra; Wu, Rui; Jamali, Hossein; Hutchins, Bryan; Dascalu, Sergiu; Harris, Frederick C; Feil-Seifer, David (October 2023, IEEE)

   This paper presents a work-in-progress on a learning system that will provide robotics students with a personalized learning environment. This addresses both the scarcity of skilled robotics instructors, particularly in community colleges and the expensive demand for training equipment. The study of robotics at the college level represents a wide range of interests, experiences, and aims. This project works to provide students the flexibility to adapt their learning to their own goals and prior experience. We are developing a system to enable robotics instruction through a web-based interface that is compatible with less expensive hardware. Therefore, the free distribution of teaching materials will empower educators. This project has the potential to increase the number of robotics courses offered at both two- and four-year schools and universities. The course materials are being designed with small units and a hierarchical dependency tree in mind; students will be able to customize their course of study based on the robotics skills they have already mastered. We present an evaluation of a five module mini-course in robotics. Students indicated that they had a positive experience with the online content. They also scored the experience highly on relatedness, mastery, and autonomy perspectives, demonstrating strong motivation potential for this approach. 

   more » « less
2. Building Interest in Technology Careers through a Five-Week Saturday Program

   https://doi.org/10.18260/1-2--42663  

   Wosczyna-Birch, Karen (June 2023, ASEE Annual Conference & Exposition)

   The goal of this program, funded by the National Science Foundation Advanced Technological Education (NSF ATE) program, is to provide additional professional and technical skills to cohorts of high school students through a five-week Saturday Program. The curriculum is continuously reviewed and modified to address current skills needed by the technician workforce. While this program was originally proposed and planned as in-person, the leadership team decided to shift to a virtual environment as the pandemic caused the closure of community college campuses where the program was to be held. Program modalities and curriculum were modified to shift to an online experience. In Fall 2022, the program was able to return to an in-person format. The program’s leadership team disseminates best practices through presentations, social media, publications, and workshops at national conferences. The four-day Summer Teachers’ Workshop brings high school and community college educators from throughout the United States to experience the same program that is used for the high school students. The Program’s outreach efforts and the national dissemination of best practices for engaging underrepresented populations in technology careers has a national impact that will potentially increase the diversity of the technician workforce. The program has inspired participants to have confidence in their own abilities. Principals from participating high schools have commented that students who attended the Program have demonstrated an improvement in their academics and behavior due to the knowledge of professional and technical skills that they have gleaned from the program. The program has provided inner-city students from four high schools with out-of-school, hands-on educational programs focusing on professional skills, technical writing and engineering technology competencies. Participant demographics will be discussed in this paper as diversity is a key objective of the program. The program utilizes industry-driven, project-based learning (PBL) and lessons in career and college readiness to prepare students for the workforce. Each student session consists of five consecutive Saturdays and is taught by a team of high school teachers, community college faculty, and instructors with expertise in professional skills, teambuilding, leadership, technical writing, coding, and STEM disciplines. 

   more » « less
3. Inspiring Blind and Low Vision High School Students and their Teachers to Access STEM in College

   Figuiera, I; Cisneros, JM; Lindo, J; Luong, V; Branham, SM (July 2025, RESPECT Annual Conference, ACM Digital Library)

   To broaden the participation of disabled students in STEM, we conducted an outreach program to inspire blind and low vision (BLV) students to pursue these disciplines in college, educate them and their Teachers of the Visually Impaired (TVIs) about accessibility in higher education, and begin to forge partnerships with local high schools. This experience report describes planning an accessible 80-person, half-day event. Pre- and post-survey evaluations showed that learning about accommodations and self-advocacy from BLV college students’ first-hand experiences was important for creating an inspirational STEM event. We also highlight how bringing together teachers from across the county and funding entities from across campus enabled us to bring greater visibility and sustainability to our initiative. 

   more » « less
4. Inspiring Blind and Low Vision High School Students and their Teachers to Access STEM in College

   Figueira, I; Cisneros, J; Lindo, J; Luong, V; Branham, S (July 2025, Proceedings of the 2025 Conference on Research on Equitable and Sustained Participation in Engineering, Computing, and Technology (RESPECT 2025))

   To broaden the participation of disabled students in STEM, we conducted an outreach program to inspire blind and low vision (BLV) students to pursue these disciplines in college, educate them and their Teachers of the Visually Impaired (TVIs) about accessibility in higher education, and begin to forge partnerships with local high schools. This experience report describes planning an accessible 80-person, half-day event. Pre- and post-survey evaluations showed that learning about accommodations and self-advocacy from BLV college students' first-hand experiences was important for creating an inspirational STEM event. We also highlight how bringing together teachers from across the county and funding entities from across campus enabled us to bring greater visibility and sustainability to our initiative. 

   more » « less
5. Engineering Bright Futures: A College Mentorship Program for Title I Public High Schools

   https://doi.org/10.18260/1-2--47272  

   Telang, Nina; Raghavan, Anjali (June 2024, ASEE Conferences)

   This paper discusses creating and establishing an engineering mentorship program for high school students from Austin Title I public schools supported by NSF grant EEC-2217741. This program aims to provide high school students of underrepresented backgrounds exposure to engineering fields, the necessary support to navigate financial and accessibility obstacles posed by the college application process, and a role model and mentor. Typically, students from lower- income high schools do not receive the resources to be familiar with engineering areas and careers, nor the college application process, so this program aims to address these gaps. The goal is that students who participate in this program feel encouraged and confident to apply to engineering programs, resulting in increased applications and potential enrollment of students from low-income high schools. In this program, student mentors (current undergraduate engineering students) are responsible for helping second-year high school students find an engineering major based on their interests, discussing the college application process at a fundamental level, and connecting the student with various financial and academic resources. Weekly mentoring sessions are held over Zoom during the students’ school day in compliance with school district and university regulations. The program lasted five weeks, covering topics such as an overview of the University of Texas’ engineering program, the different engineering fields and careers, a thorough overview of the application process, and financial aid. This project was evaluated with an anonymous survey administered to the high school students after the completion of the program to gauge engagement, whether they felt the program was beneficial, and interest levels in engineering, all of which helped determine the program's effectiveness. 

   more » « less