Biomedical Engineering
The 4+1 accelerated Biomedical Engineering program at the 91±¬ÁÏ enables students to begin graduate-level coursework while completing their undergraduate degree. Students explore the intersection of engineering, biology, and medicine through topics such as biomaterials, medical devices, and biomedical systems. The program emphasizes hands-on research and innovation to prepare graduates for careers in healthcare technology and advanced study.
Civil Engineering
The 4+1 accelerated Civil Engineering program provides a streamlined pathway to advanced study in the design and development of critical infrastructure systems. Students deepen their expertise in structural, environmental, transportation, and geotechnical engineering while gaining practical, project-based experience that prepares them for professional practice and leadership in the field.
Computer Engineering
The 4+1 accelerated Computer Engineering program integrates undergraduate and graduate study in hardware and software systems design. Students engage with embedded systems, computer architecture, and emerging computing technologies, building advanced technical skills for careers in robotics, computing systems, and high-tech industries.
Computer Science
At the 91±¬ÁÏ, Computer Science students build a strong foundation in software development, algorithms, and systems while exploring emerging areas like artificial intelligence, cybersecurity, and data-driven applications. Hands-on projects and research opportunities prepare graduates to design the technologies shaping the future.
Data Science & Engineering
Data Science & Engineering combines computing, statistics, and domain expertise to turn data into actionable insight. Students gain experience in machine learning, data visualization, and large-scale data systems, working on real-world challenges in fields ranging from healthcare to environmental science.
Electrical Engineering
Electrical Engineering students design and develop the systems that power modern life—from renewable energy and smart grids to electronics, communications, and embedded systems. With access to advanced labs and research, students gain practical experience solving complex technical problems.
Engineering Technology
Engineering Technology focuses on applied engineering and hands-on problem solving. Students learn to implement, test, and improve systems in areas like manufacturing, construction, and electronics, preparing for careers that bridge engineering design and real-world application.
Information Systems
Information Systems connects technology with business strategy. Students learn how to design, manage, and secure information systems that support organizations, gaining skills in data management, cybersecurity, and systems analysis for a wide range of industries.
Mechanical Engineering
Mechanical Engineering students explore the design, analysis, and manufacturing of mechanical systems. From robotics and advanced materials to energy systems and product design, students gain the skills to innovate across industries.
Spatial Information Science & Engineering
Spatial Information Science & Engineering focuses on mapping, geospatial analysis, and data-driven decision-making. Students work with technologies like GIS, remote sensing, and surveying to solve challenges in infrastructure, environmental management, and urban planning.
