Dual Master of Engineering-MBA in Applied Artificial Intelligence
The dual Master of Engineering-MBA in Applied Artificial Intelligence degree is designed for students that seek to have a deep technical knowledge in applied artificial intelligence as well as strong management skills and qualifications. This joint degree will give students strong business management skills to complement their engineering degree, accelerating their growth into management positions and opening a more diverse selection of career choices. The students will earn two separate master’s degrees at completion of this dual degree program.
This dual program offers an exceptional combination of management skills with deep and practical knowledge of the technical aspects of electrical and computer engineering. The MBA program is particularly suited for engineers, as it incorporates a unique blend of courses on management skills, technology and analytics skills, and human skills.
Concentrations
Program Objectives
The program prepares students to:
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develop a strong background in understanding the theoretical foundations of artificial intelligence and deep learning.
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understand a variety of engineering applications for AI, including intelligent communication networks, autonomous robotics, image processing and computer vision, embedded systems, smart Internet of Things, smart health, information systems security, biomedical engineering, financial engineering, transportation engineering, data engineering, and software engineering.
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perform independent research in the applied AI field.
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become managers/leaders in engineering firms or engineering departments of any firm.
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establish new ventures and startups with expertise in engineering and the skills to start a business.
Program Outcomes
By the time of graduation, students will be able to:
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apply knowledge in mathematics, computational science and physics to solve problems in artificial intelligence.
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analyze real-world data inputs and information systems using engineering principles and modeling approaches.
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design experiments and analyze results to determine process parameters, and to identify issues and methods for algorithm design and system analysis.
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use mathematical, modeling, and engineering principles to design artificial intelligent algorithms and systems; be able to incorporate considerations such as feasibility, applicability, cost, legal/regulatory, societal impacts, etc. in designs.
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use computer software for data acquisition, modeling, simulation, visualization and intelligent system design.
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write and present polished technical reports at a level expected of the engineering profession.
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critically evaluate the technical literature and use it to obtain solutions to artificial intelligence and data engineering problems.
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acquire in-depth technical and managerial skills to be able to be effective leaders in technology companies in their field of study.
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develop basic skills of management as well as gain knowledge of analytical methods for approaching organization problems.
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integrate managerial and technical aspects of computer engineering.
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demonstrate fluency in the current body of knowledge in computer engineering and apply that knowledge toward optimal decision-making process in their respective field of practice.
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exhibit proper use of integrative thinking in order to holistically analyze the relationship between human activity and the natural, social, and economic environments.
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acquire both qualitative and quantitative analytical skills and apply those skills in solving problems in the context of their professional interests and expertise.
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possess high quality written and oral communication skills to efficiently communicate complex issues to a varied audience.
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demonstrate a high level of professionalism and proper understanding of ethical boundaries in all undertakings.
Degree requirements
The program is a 57-credit degree program. Students are required to complete:
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1 mathematical foundation course from the Master of Engineering degree program (3 credits)
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4 core courses from the Master of Engineering degree program (12 credits)
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2 elective courses from Master of Engineering degree program (6 credits)
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3 concentration courses in Business Operations for ECE (9 credits)
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Additional 9 courses from MBA degree program (27 credits)
Mathematical Foundation Courses
Students are required to select one mathematical foundation course from the list below:
EE 602 | Analytical Methods in Electrical Engineering | 3 |
| Or | |
EE 605 | Probability and Stochastic Processes I | 3 |
Core Courses
Students are required to select four core courses from the list below:
AAI 627 | Data Acquisition, Modeling and Analysis: Big Data Analytics | 3 |
AAI 628 | Data Acquisition, Modeling and Analysis: Deep Learning | 3 |
AAI 646 | Pattern Recognition and Classification | 3 |
AAI 672 | Applied Game Theory and Evolutionary Algorithms | 2 |
AAI 695 | Applied Machine Learning | 3 |
EE 608 | Applied Modeling and Optimization | 3 |
Business Operations for AAI Concentration (required)
Select three courses from the list
BIA 500 | Business Analytics: Data, Models & Decisions | 3 |
BIA 610 | Applied Analytics | 3 |
MGT 657 | Operations Management | 3 |
Electives
Students in the Master of Engineering program are required to complete two elective courses (6 credits). Elective courses can be any graduate level course at the 500 or 600 levels within the Department of Electrical and Computer Engineering. Elective courses that are taken outside of the department require approval by the faculty advisor.
Requirements for MBA degree (with ECE concentration) in the dual degree program
MGT 606 | Economics for Managers | 3 |
FIN 623 | Financial Management | 3 |
MGT 612 | Leader Development | 3 |
MGT 635 | Managerial Judgment and Decision-Making | 3 |
MGT 641 | Marketing Management | 3 |
MGT 663 | Discovering and Exploiting Entrepreneurial Opportunities | 3 |
MGT 699 | Strategic Management | 3 |
MGT 810 | Special Topics in Management | 0 |
FIN 523 | Financial Management | 3 |