Applied Electromagnetics
This course builds upon the electric and magnetic field foundations established in the fundamentals of electromagnetics course to describe devices and phenomena in which electromagnetic waves are a central issue. Topics include: review of Maxwell’s equations, propagation of uniform plane waves in lossless and lossy media, energy conservation as described by the Poynting Theorem, reflection and transmission with normal and oblique incidence, sinusoidal steady state and transients on two-conductor transmission lines, modal descriptions of waveguides, radiation and antennas.
Dr. Ahmed Mahmoud
Design, model and analyze an electrical, electronic, microwave and optical system or component for a specific ICT application and identify the tools required to optimize this design.Assess and evaluate the characteristics, performance, cost benefit analysis failure of components, systems’ reliability and processes to solve engineering problems, often based on limited and possibly contradicting information Understand the key principles of signal processing, control theory, and the main components of analog and digital communication systems. As well as, DSP and embedded systems.Illustrate the key performance indicators in communication systems and networks and analyze the performance of analog and digital communication systems, as well as wireless and optical communication systems and communication networks Use appropriate specialized software packages, write computer programs, and use relevant laboratory equipment for the analysis and design of electronics and communications components and systems