Overview of computer engineering design. Number systems and Boolean algebra. Logic gates. Design of combinational circuits and simplification. Decoders, multiplexors, adders. Sequential logic and flip ...

Introduction to microprocessor controlled electromechanical systems. Interfacing sensors and actuators to computers, electrical and mechanical prototyping, dissection of commercial product. Final term ...

The Mechatronic Systems Engineering (MSE) emphasis in the Department of Mechanical Engineering focuses on the methods and techniques relating to the design, control and operation of complex modern ...

Flow charts are not an official list of degree requirements. Adjustments may be required due to curriculum changes. Please see degree audit for official list of requirements. Introduces the ...

Learn to apply control systems in automotive, energy, aerospace, robotics, and manufacturing sectors. Apply feedback control laws to stabilize systems and achieve performance goals. Control systems ...

This course sits at the heart of technologies transforming society, from AI, autonomous vehicles, and robotics to IoT and next-generation communications. You will be equipped to make a positive ...

Stephen Mastro, PhD is a Section Leader for two of Engineering Managements core courses: EGMT 501: Engineering Management I and EGMT 502: Engineering Management II. He is the course developer and ...

Certificate programs are designed to provide an intensive background in a narrow area at the graduate level. At approximately one-third of the units required for a master’s degree, the certificate is ...