Fall 2021
EE480: Power System Analysis
Computer modeling techniques and methods have been developed for the analysis and design of power systems. Specifically, we focus on various challenges in transformers, transmission lines, and power flow.
Fall 2020
EE603: Engineering Optimization
Unconstrained and constrained optimization problems. Convex sets, functions, analysis, and optimization problems. Least-squares, linear, and quadratic programs. Optimality conditions, duality theory.
Fall 2019
EE310: Electric Circuits II
Transient and frequency response of RLC circuits. Mutual inductance, network analysis using Laplace transformations, network functions, stability, convolution integrals, Bode diagrams, two-port networks, and computer analysis of circuits.
Spring 2019
EE581: Power System Dynamics
The steady-state economic operation and control, as well as transient stability of the power system, are covered in this course. Knowledge of the theory and practice of fault analysis, voltage control, and transient stability methods is a requirement for the design and verification of power system engineers. The objective of the course is to introduce students to the theory and practice of power system dynamics and its integration into power system operation.
Fall 2018
EE596: Renewable Energy and Smart Grid
Renewable energy is widely recognized in power and related industry as the future of electric power. Knowledge of theory and practice of formal methods is becoming a requirement for design and verification engineers. The objective of the course is to introduce students to the theory and practice of renewable energy and its integration to the smart grid. The integration of renewable and distributed energy resources raises several challenges and brings several opportunities in the operation of a modernized grid. We seek to familiarize with the cost and benefits of grid modernization.