Our students gain a hands-on education that prepares them for successful careers in embedded systems, telecommunications, the computer industry, the power and renewable energy industry, the biomedical ...

The department has experienced an unprecedented period of growth in research and graduate education. Since 2000, PhD enrollments have nearly quadrupled, and external funding for research has grown by ...

UD's Intelligent Signal Systems Laboratory is a world-class research laboratory in image processing and computer vision. The lab focuses on three areas of research: Physical and statistical modeling ...

Applications range from medical imaging to autonomous vehicle technology. Learn data manipulation techniques to improve signal or image fidelity. Understand the theory of probability and stochastic ...

This lab course introduces students to modern topics of engineering optics. Teams of students will carry out four different projects: holography, lasers, free-space optical communication, and ...

Main teaching interests are optimization, dynamic optimization, large-scale optimization, and computational engineering such as simulation and computational mathematics. Can also teach Signals and ...

Design linear discrete-time systems and filters and analyze their behavior. Represent continuous-time signals and linear systems in discrete time, so that such signals can be recovered in continuous ...

The chip market is growing worldwide; it’s projected to nearly double by 2030 to over one trillion dollars. Most of this market is made up of digital functions in the form of logic, microprocessors, ...

Signal and power integrity have become pivotal concerns as data center and aerospace and defense products grow more complex and operate at higher frequencies. For Benjamin Dannan, the foundation of ...