Award Abstract # 2111561
Improving Engineering Student Engagement, Self-Efficacy, Diversity Awareness, and Retention using Visualization and Virtual/Augmented Reality Technologies

NSF Org: DUE
Division Of Undergraduate Education
Recipient: BOARD OF REGENTS OF THE UNIVERSITY OF NEBRASKA
Initial Amendment Date: July 15, 2021
Latest Amendment Date: July 15, 2021
Award Number: 2111561
Award Instrument: Standard Grant
Program Manager: John Jackman
DUE
 Division Of Undergraduate Education
EDU
 Directorate for STEM Education
Start Date: October 15, 2021
End Date: November 30, 2021 (Estimated)
Total Intended Award Amount: $1,700,000.00
Total Awarded Amount to Date: $1,700,000.00
Funds Obligated to Date: FY 2021 = $0.00
History of Investigator:
  • Ece Erdogmus (Principal Investigator)
    ecee24@clemson.edu
  • Heidi Diefes-Dux (Co-Principal Investigator)
  • Erica Ryherd (Co-Principal Investigator)
  • Catherine Armwood-Gordon (Co-Principal Investigator)
  • Kyungki Kim (Co-Principal Investigator)
Recipient Sponsored Research Office: University of Nebraska-Lincoln
2200 VINE ST # 830861
LINCOLN
NE  US  68503-2427
(402)472-3171
Sponsor Congressional District: 01
Primary Place of Performance: University of Nebraska-Lincoln
205A PKI, 1110 S. 67th St.
Omaha
NE  US  68182-0816
Primary Place of Performance
Congressional District:
02
Unique Entity Identifier (UEI): HTQ6K6NJFHA6
Parent UEI:
NSF Program(s): Hist Black Colleges and Univ,
IUSE
Primary Program Source: 04002122DB NSF Education & Human Resource
Program Reference Code(s): 8209, 8244, 9150, 9178
Program Element Code(s): 159400, 199800
Award Agency Code: 4900
Fund Agency Code: 4900
Assistance Listing Number(s): 47.076

ABSTRACT

This project serves the national interest by creating visualization and augmented/virtual reality (AR/VR) education modules in architectural engineering and construction (AEC) courses that will help improve students? persistence in the program, self-confidence, and diversity awareness. Students will work on real world projects in teams using the visualization and interactive AR/VR modules. Social and technical interactions between students will be facilitated using virtual spaces that simulate physical meeting rooms in which students can share engineering artifacts. Student learning will be supported with an interactive building environment, interactive exercises in a 3D virtual environment, and embedded audio/videos that provide feedback on student design decisions. Students will visualize themselves as AEC professionals and increase their self-efficacy starting in K-12 or community college contexts as well as in the first year of their degree program. More advanced real-life engineering experiences will continue to reinforce self-efficacy and engagement in engineering throughout the AEC curriculum. This collaboration between a research-intensive institution, University of Nebraska-Lincoln, and an HBCU, Tennessee State University, will provide an opportunity for students to interact with other students from diverse backgrounds and produce valuable insights on the effectiveness of the education modules with different audiences. A virtual workshop series will be used to support the adoption of the modules by other AEC programs, other engineering disciplines, and high school teachers.

Three education modules will be developed and implemented in courses at the collaborating institutions. An introductory module will be used for outreach to K-12 and community colleges to generate interest in AEC fields. The remaining modules will be used for first and second-year AEC students in existing courses. The design of the modules is informed by the Model of Domain Learning theoretical framework including its constructs of stages of learning and phases of interest. Modules will be developed with attention to the learning objectives of the courses and the level of AEC curriculum that is being targeted. The project seeks to answer the following overarching research questions: 1) How does a module impact students' engagement, self-efficacy, and diversity awareness? 2) How do enrollment, retention, and graduation rates change as modules are introduced into the curriculum? and 3) How do the findings to the first two questions vary by institution? Each module will provide the basis for a multi-case study where the institutional context defines each case. Rich case descriptions and cross-case analysis will guide improvements to the module, highlight module transferability barriers and affordances, and enable interpretation of findings based on data from survey instruments and interviews. This project will advance knowledge about the impact of AR/VR-based learning modules in STEM teaching and learning. The NSF IUSE: EHR Program supports research and development projects to improve the effectiveness of STEM education for all students. Through the Engaged Student Learning track, the program supports the creation, exploration, and implementation of promising practices and tools.

This award reflects NSF's statutory mission and has been deemed worthy of support through evaluation using the Foundation's intellectual merit and broader impacts review criteria.

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