College of Engineering
Strengthen your building optimization expertise with the Existing Building Commissioning Process Provider program. Through coursework and practical exercises, you’ll be equipped to assess and improve building performance systems like HVAC for greater efficiency.
Master the art of virtual engineering with the Mechanical Engineering: Modeling & Simulation in Mechanical Engineering MS program. You’ll be equipped with advanced computational tools for simulating robot motion, heat transfer, fluid dynamics and other areas of interest to mechanical engineers.
Fast-track your mechanical engineering career. Through this intensive program you’ll learn about core areas such as: Biomechanics, computation and data-driven engineering, energy systems, advanced manufacturing, mechanics, and robotics, controls and sensing.
Push the boundaries of materials science with the Materials Science & Engineering: Materials Engineering program. Delve into cutting-edge topics like nanomaterials, artificial intelligence and semiconductor design to engineer the future.
Learn to optimize manufacturing systems with the Manufacturing Systems Engineering: Manufacturing Engineering MS program. You’ll gain skills in supply chain management and data analysis to optimize manufacturing processes.
Be prepared to meet the strong market demand for engineers who have mastered analytical tools and can transform data into insights. You’ll gain expertise in optimization models and methods, applied industrial analytics, simulation modeling, and analysis.
Find real-world solutions to sustainability challenges with the Engineering: Sustainable Systems Engineering MEng program. Through project-based learning, you’ll design and analyze sustainable solutions for energy systems while gaining expertise in renewable resources and eco-friendly design principles.
In the Electrical & Computer Engineering: Machine Learning & Signal Processing MS program, you’ll delve into topics that help you tackle real-world problems in information processing and apply data-driven innovation to cutting-edge technology.
Apply engineering to improve healthcare with the Industrial Engineering: Human Factors & Health Systems Engineering MS program. You’ll develop skills in health system analysis and human factors design to make a lasting impact on health care.
Get hands-on with the Engineering: Polymer Engineering MEng program. Through labs and coursework, you’ll master polymer processing and characterization techniques like injection molding and 3D printing, all informed by a strong foundation in engineering design and material behavior.
The Civil & Environmental Engineering: Environmental Engineering MEng program equips you to tackle critical environmental challenges. Gain expertise in water treatment processes, energy principles and wastewater management, along with the fundamentals of hydraulics, to design sustainable solutions for a cleaner future.
Lead with technical expertise through the Engineering Management MS program. You’ll develop expertise in project management, hone your negotiation skills, and gain a strong foundation in engineering law and ethics to become a well-rounded engineering leader.
Translate data into action with the Engineering: Engineering Data Analytics MEng program. You’ll learn to manage and analyze data using industry-standard tools while developing the technical and project management skills to make data-driven decisions that optimize engineering projects.
Elevate your career and gain practical skills in diverse areas of electrical and computer engineering. Specialize in one of nine areas including semiconductors, networking and security, computer architecture, power electronics and more.
Advance your understanding of energy systems and automation technologies with the Electrical & Computer Engineering: Power Engineering MS program. Through a mix of theory and practice, you’ll improve your ability and skill-set to solve pressing engineering problems.
Become an innovative leader with the Design + Innovation MS program. Through a blend of theory, hands-on projects, and courses, you’ll master advanced design thinking methodologies to bring innovative ideas to life.
Dive into the science and engineering behind polymer products with the Polymer Processing & Manufacturing Capstone program. Through lectures, labs and a potential capstone project, you’ll gain hands-on experience with advanced techniques like injection molding, 3D printing and simulation tools to optimize polymer processing.
Benefit from a comprehensive curriculum and choose a specialization to deepen your expertise and address the world’s pressing infrastructure needs. Specializations include construction engineering and management; environmental science and engineering; geological/geotechnical engineering; structural engineering; transportation engineering; and water resources engineering.
Break into a biomedical career at the interface of engineering and business. Offered in cooperation with the School of Business, this program will advance your skills in design, prototyping, and manufacturing as well as general business fundamentals, entrepreneurship and project management.
Combine the fundamentals of the biomedical sciences with advanced engineering methods. Focus your degree and choose from a variety of specializations including biomaterials and tissue engineering, biomechanics, biomedical imaging, neuroengineering and more.
Advance your career in aerospace engineering with the Engineering Mechanics: Aerospace Engineering MS program. Through coursework and projects, you’ll gain expertise to push innovation in the aerospace industry.
Immerse yourself in the future of transportation with the Powertrain Electrification Capstone program. You’ll learn through a combination of lectures and hands-on projects where you’ll gain expertise in designing, modeling and controlling electric vehicle powertrains and battery systems.
Gethands-on and refine your skills in designing and controlling electric systems with the Power Conversion & Control Capstone program. Through a blend of coursework and labs, you’ll analyze and optimize power electronics circuits and automatic controls for efficient electric drive systems.