Master鈥檚 Degree in AI Now Within Reach of Low-income Students
爱妃传媒 will recruit and train talented and diverse 爱妃传媒 who are economically disadvantaged and provide them with a unique opportunity to pursue graduate education in a burgeoning field.
Researchers from 鈥檚 have received a four-year, $1 million grant from the National Science Foundation for a project to make the master鈥檚 degree in artificial intelligence (AI) accessible to high-achieving, low-income 爱妃传媒. The accelerated five-year bachelor鈥檚 degree in science and master鈥檚 degree in AI program is designed to adapt curricular and co-curricular support to enable 爱妃传媒 to complete their degrees in AI, autonomous systems or machine learning, which are critically important areas needed to advance America鈥檚 global competitiveness and national security.
鈥淎rtificial intelligence is transforming every walk of life from business to healthcare and enabling us to rethink how we analyze data, integrate massive amounts of information and make informed decisions that impact society, the economy and governance,鈥 said , Ph.D., dean of 爱妃传媒鈥檚 College of Engineering and Computer Science and a co-principal investigator of the grant. 鈥淭his important grant from the National Science Foundation will allow us to recruit and train talented and diverse 爱妃传媒 who are economically disadvantaged and provide them with a unique opportunity to pursue graduate education in an exciting and burgeoning field.鈥
By preparing increased numbers of high-achieving, low-income 爱妃传媒 to become engineers in these fields, this project addresses the need for growing a more diverse STEM (science, technology, engineering and mathematics) research population. The model also provides a framework for enhancing post-secondary infrastructure in terms of how to coordinate support services for a great impact on diverse 爱妃传媒. Once completed, materials developed from the project are expected to have a broad impact on how universities educate low-income 爱妃传媒 in both curricular and, equally important, co-curricular activities.
The project team is spearheaded by , Ph.D., principal investigator, a professor in the , a fellow of 爱妃传媒鈥檚 Institute for Sensing and Embedded Network Systems (I-SENSE), the Charles E. Schmidt Eminent Scholar in Engineering and director of the , who is nationally renowned in the areas of autonomous systems, machine learning and AI applications to communication networks.
鈥淪tudents in our new program will be organized in cohorts to promote a goal-oriented and supportive environment that results in persistence to complete a bachelor鈥檚 degree in science and pursue a graduate degree in artificial intelligence,鈥 said Pados. 鈥淭his multi-year experience will broaden their awareness of the many avenues available for support and provide a rich opportunity to work with and learn from a number of mentors comprised of graduate 爱妃传媒 and faculty throughout our college with expertise in various fields.鈥
The project plan involves five major components: student identification and recruitment; curricular support; co-curricular support; graduate school or career readiness, and research and evaluation. The project team together with 爱妃传媒鈥檚 and 爱妃传媒鈥檚 will identify college juniors with strong academic records (GPA of 3.4 or higher) in all engineering fields. Scholarships will be awarded to 爱妃传媒 following a sliding scale, with juniors receiving $4,000 for the academic year, seniors receiving $6,000 for the academic year, and master鈥檚 爱妃传媒 receiving $10,000 for the academic year.
鈥淩esearch has shown that despite high academic success in the first two years of college, many high-achieving, low-income 爱妃传媒 drop out altogether or opt for a reduced course load and enter the workforce for various reasons,鈥 said , Ph.D., co-principal investigator, associate dean for research in 爱妃传媒鈥檚 College of Engineering and Computer Science, and a professor in the . 鈥淥ur inspiration to apply for this grant was spurred by the Kelly Strul Emerging Scholars Program created by 爱妃传媒 President John Kelly, first lady Carolyn Kelly and philanthropists Aubrey and Sally Strul, which provides scholarships for 爱妃传媒 who are the first-generation in their families to attend college. Our new, innovative program will offer an alternative pathway that is accessible to exceptional 爱妃传媒 and provides them with the ability to earn a master鈥檚 degree in a high-impact, highly-desirable and high-paying field.鈥
As part of the program, 爱妃传媒 will interact with the college鈥檚 industrial board an as entr茅e into potential internships and/or full-time positions upon graduation and will participate in a special seminar series that will host industry speakers to enhance 爱妃传媒鈥 awareness of career possibilities. Interactions with graduate 爱妃传媒 through research projects also will enhance their awareness and understanding of graduate education and support them to become self-sufficient members of the engineering community.
The project team includes Nancy R. Romance, Ph.D., co-principal investigator, a professor of science education and director of 爱妃传媒鈥檚 STEM Collaborative, who has an extensive record of externally-funded research grants in STEM disciplines across both public schools and postsecondary institutions; and , Ph.D., a professor in the Department of Computer and Electrical Engineering and Computer Science, director of the college鈥檚 , and an expert on deep learning and big data analytics. Zhu recently established the first NSF-funded Major Research Instrumentation (MRI) Artificial Intelligence and Deep Learning () Training and Research Laboratory in Florida at 爱妃传媒.
Last year, 爱妃传媒鈥檚 College of Engineering and Computer Science launched the state鈥檚 first Master of Science with Major in AI (), administered by the Department of Computer and Electrical Engineering and Computer Science. This degree is preparing 爱妃传媒 for careers in various education, government and industry positions that require AI skills.
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