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Award Abstract # 2202136
Collaborative Research: Revolutionizing Electric Vehicle Education

NSF Org: DUE
Division Of Undergraduate Education
Recipient: TRIDENT TECHNICAL COLLEGE
Initial Amendment Date: April 26, 2022
Latest Amendment Date: April 26, 2022
Award Number: 2202136
Award Instrument: Standard Grant
Program Manager: Virginia Carter
vccarter@nsf.gov
 (703)292-4651
DUE
 Division Of Undergraduate Education
EDU
 Directorate for STEM Education
Start Date: May 15, 2022
End Date: April 30, 2026 (Estimated)
Total Intended Award Amount: $999,946.00
Total Awarded Amount to Date: $999,946.00
Funds Obligated to Date: FY 2022 = $999,946.00
History of Investigator:
  • Robert Elliott (Principal Investigator)
    robert.elliott@tridenttech.edu
  • Walter Varella (Co-Principal Investigator)
Recipient Sponsored Research Office: Trident Technical College
7000 RIVERS AVE
NORTH CHARLESTON
SC  US  29406-4618
(843)574-6241
Sponsor Congressional District: 06
Primary Place of Performance: Trident Technical College
7000 Rivers Avenue
North Charleston
SC  US  29406-4607
Primary Place of Performance
Congressional District:
06
Unique Entity Identifier (UEI): JTNDE6EBHL41
Parent UEI: XRCGNXUSUE58
NSF Program(s): Advanced Tech Education Prog
Primary Program Source: 04002223DB NSF Education & Human Resource
Program Reference Code(s): 1032, 9150, 9178, SMET
Program Element Code(s): 741200
Award Agency Code: 4900
Fund Agency Code: 4900
Assistance Listing Number(s): 47.076

ABSTRACT

The United States is facing an unprecedented need for a new generation of technological talent to respond to international competition for an automotive workforce with diverse, up-to-date skill sets driven by electric vehicles (EV), autonomous vehicles (AV), and the cybersecurity associated with software-driven vehicles. The internal combustion engine is being phased out and replaced by electricity, setting the stage for an increased demand for autonomous and EV technologies. This changing technological climate and the resultant concurrent global competition necessitate transformation at every level of automotive development ? from EV designers to EV technicians. The demand for skilled EV manufacturing and service industry technicians is substantial and is predicted to increase at a rate where demand outpaces quantity. Workers aging out of the workforce, the lack of advanced STEM skills for those currently in the workforce, and increased economic expansion are contributing factors to this deficit. Collaboration among educators and employers must occur to advance the understanding of workforce challenges and opportunities. To meet the need, a faculty-driven consortium of two-year Institutions of Higher Education (IHEs), other ATE projects and centers, and industry will collaborate to address the next generation cross-disciplinary workforce needs of the Electric Vehicle (EV) manufacturing and service industry through an innovative hybrid virtual and augmented reality (VR/AR) education approach.

The consortium project partners include: Volvo, Daimler, BMW, Proterra, Bosch, Duke Energy, Michelin, the Upstate SC Alliance, the South Carolina Manufacturing Extension Partnership, the South Carolina Technical College System, the National Center for Autonomous Technologies, the National Cybersecurity Training and Education Center, the Regional Center for Nuclear Education, and the Northwest Engineering and Vehicle Technology Exchange. The project goals will address current and future EV manufacturing and service industry needs for both two-year college students and incumbent workers. Goal 1: Identify current and future education and workforce needs required by the migration of the transportation industry from traditional fuels to battery-powered electric vehicles. Goal 2: Create, deploy, and assess an innovative, creative, and informed cross- disciplinary EV manufacturing and service industry technician education hybrid curricula incorporating classroom, virtual, and experiential learning. Strategies will be implemented to support participation and persistence in EV manufacturing and service technician education for students including those who are rural, veterans, and those historically underserved in STEM career pathways. Goal 3: Develop and/or strengthen partnerships with consortium members, ATE projects and centers, and industry to leverage and share expertise and best practices for maximum impact and sustainability within and across fields and institutions. Goal 4: Provide professional development addressing the new EV curricula to ensure widespread use, dissemination, and faculty leadership development. This project is funded by the Advanced Technological Education program that focuses on the education of technicians for the advanced-technology fields that drive the Nation's economy.

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.

Please report errors in award information by writing to: awardsearch@nsf.gov.

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