PhD Electrical Engineering

Eligibility Criteria: MS Degree in relevant discipline with minimum CGPA 3.00/4.00 or equivalent (70%), or GAT-Subject (60% Marks), or GRE-Subject (60 Percentile).
Degree Requirements: Minimum 30 Credit Hours Duration: 3 Years Semesters: 6

Scheme of Study

The courses in PhD Electrical Engineering degree program are categorized as:
  • Elective Courses (18 credit hours)
  • Dissertation (12 credit hours)
  Code Course Title CH
  EE-7XX Elective - I 3+0
  EE-7XX Elective - II 3+0
  EE-XXX Elective - III 3+0
  EE-XXX Elective - IV 3+0
  EE-8XX Elective - V 3+0
  EE-8XX Elective - VI 3+0
  EE-899 PhD Dissertation 12


Specialization in Power

Code Course Title CH   Code Course Title CH
EE-711 Intelligent Tools for Power System 3+0   EE-811 Smart Grids and Distribution Networks 3+0
EE-712 Modeling and Simulation of Power System Components 3+0   EE-812 Advanced Topics in Renewable Energy 3+0
EE-713 Power System Optimization 3+0   EE-813 Modern Electrical Derives 3+0
EE-714 Power System Dynamics and Stability 3+0   EE-814 Power System Operation 3+0
EE-715 Advanced Topics in Power 3+0   EE-815 Advanced Electrical Machine Design 3+0
EE-721 High Voltage Engineering 3+0        


Specialization in Communications and Signal Processing

Code Course Title CH   Code Course Title CH
EE-731 Special Topics in Wireless Communication 3+0   EE-834 Advanced Engineering Electromagnetics 3+0
EE-741 Advanced Digital Signal Processing 3+0   EE-841 Stochastic Signal Processing 3+0
EE-742 Biomedical Image Processing 3+0   EE-842 Pattern Recognition 3+0
EE-831 Wireless Sensor Networks 3+0   EE-843 Adaptive Signal Processing 3+0
EE-832 Advanced Topics in Communication Systems 3+0   EE-844 Speech Processing 3+0
EE-833 Estimation and Detection Theory 3+0        


Specialization in Control

Code Course Title CH   Code Course Title CH
EE-741 Advanced Digital Signal Processing 3+0   EE-861 Advanced Control Engineering 3+0
EE-761 Advanced Control Systems 3+0   EE-862 Fuzzy Control Systems 3+0
EE-762 Advanced Topics in Control 3+0   EE-863 Advanced Topics in Intelligent Systems and Controls 3+0
EE-771 Optimization Methods for Systems and Control 3+0   EE-864 Advanced Process Control 3+0
EE-772 Optimal Control System 3+0   EE-881 Adaptive Control and Nonlinear Stability Theory 3+0
EE-781 Non-Linear Control Systems 3+0