This space is designed to empower students, professionals, and innovators with rigorous, hands-on, and future-facing learning in electrical and computer engineering. Whether you're diving into foundational academic courses, advancing through specialized industrial training, seeking one-on-one mentorship, or engaging in structured internship experiences, each program is crafted with real-world relevance, technical depth, and excellence in mind. All course materials — including lecture notes, slides, and full-length YouTube lectures — are freely accessible to support your growth at every stage.
High-impact undergraduate and graduate courses in electrical and computer engineering, designed to build strong theoretical foundations through hands-on labs, detailed lecture notes, interactive slides, and full video lectures.
Industry-aligned training programs focused on practical skills, standards, and emerging technologies in power systems, renewable energy, and electronics — built for engineers, technicians, and lifelong learners.
Personalized mentorship for students pursuing research projects, internships, or capstone work — with structured guidance, technical support, and opportunities to convert real-world work into academic credit or publication.
Academic Instructions (Courses offered at OU)
ECE 5/4973
Inverter-Based Renewable Energy Systems Integration and Analysis
This course provides an in-depth exploration of inverter-based renewable energy systems. Students will gain expertise in system design, integration, and performance analysis for utility-scale renewable systems, such as offshore wind farms. The course emphasizes practical skills through simulation, hardware assignments, and comprehensive system-level projects.
ECE 5/4973
Standard Electrical and Electronic Engineering (SEEE)
Students will explore how widely adopted IEEE standards shape the design, testing, safety, interoperability, and compliance of modern engineering systems. Covering topics across instrumentation, embedded diagnostics, networking, time synchronization, power quality, smart grid integration, and sustainability, the course provides hands-on insight into the frameworks that engineers must understand to deliver reliable, scalable, and industry-ready solutions.
ECE 4413
Introduction to Control Systems
This course provides an in-depth exploration of control system analysis and design, building upon foundational concepts from ECE 3793. Students will study the performance characteristics of control systems and apply various synthesis techniques to develop stable and efficient control solutions.
ECE 3873
Electrical and Computer Engineering Electronic Lab
This course introduces students to essential analog electronics concepts through hands-on laboratory experiments. Students will learn practical circuit design, simulation, and debugging techniques, including diodes, transistors, op-amps, and voltage regulation circuits. Students will develop critical problem-solving skills while designing, building, and testing real-world circuits.
ECE 2523
Probability, Statistics and Random Processes
This course covers important topics like basic probability, random variables, vectors, and processes, offering a deep dive into applications relevant to our discipline. You'll become skilled in areas such as time averages, expectations, laws of large numbers, stationarity, autocorrelation, spectral analysis, minimum mean squared error estimation, detection, linear filtering, and various random processes like IID, Markov, independent increment, counting, Gaussian, and Poisson.
ECE 3773
Electrical and Computer Engineering Circuit Lab
This course provides hands-on experience in circuit analysis, design, and measurement techniques. Students will gain practical knowledge of electrical circuits, components, and tools while reinforcing theoretical concepts through laboratory experiments and projects.
ECE 3113
Energy Conversion
This course covers important topics like basic probability, random variables, vectors, and processes, offering a deep dive into applications relevant to our discipline. You'll become skilled in areas such as time averages, expectations, laws of large numbers, stationarity, autocorrelation, spectral analysis, minimum mean squared error estimation, detection, linear filtering, and various random processes like IID, Markov, independent increment, counting, Gaussian, and Poisson.
Professional Instructions (Offered Independent of OU)
ISO 9001: 2018- Quality management systems
High voltage testing for MV transformers
IEC technical requirements for MV switch gears
IEEE 1233: 1998- IEEE Guide for Developing System Requirements Specifications
IEEE 1241: 2023- IEEE Standard for Terminology and Test Methods for Analog-to-Digital Converters
IEEE 1149.1: 2013- IEEE Standard for Test Access Port and Boundary-Scan Architecture
IEEE 519: 2022- IEEE Standard for Harmonic Control in Electric Power Systems
IEEE C37.2: 2022- IEEE Standard for Electrical Power System Device Function Numbers, Acronyms, and Contact Designations
Electrical safety protocols and regulations
ISO 17025: 2017- General requirement for testing and calibration laboratories
Standard requirement for artificial pollution tests
IEEE 100: 2000- The Authoritative Dictionary of IEEE Standards Terms, Seventh Edition
IEEE 1057: 2017- IEEE Standard for Digitizing Waveform Recorders
IEEE 754: 2019- IEEE Standard for Floating-Point Arithmetic
IEEE 1687: 2014- IEEE Standard for Access and Control of Instrumentation Embedded within a Semiconductor Device
IEEE 1547: 2018- IEEE Standard for Interconnection and Interoperability of Distributed Energy Resources with Associated Electric Power Systems Interfaces
Measurement uncertainty
Internship/Project Mentoring (Service Offered at OU)
This course provides a unique blend of academic rigor and practical experience by integrating internships with a structured academic project. The internship itself is designed to be a critical component of the course, allowing students to apply theoretical knowledge to real-world scenarios. The primary focus is on the development and execution of a project that aligns with the student’s internship role, contributing both to the host organization and the student's academic growth.
Students will be required to engage in a professional internship related to their field of study while simultaneously developing a significant project under the guidance of the course instructor. This project will serve as the main deliverable for the course and will be closely tied to the student’s internship activities. The course aims to bridge the gap between academia and industry, fostering skills that are essential for professional success.