Graduate Specializations in Electrical & Computer Engineering
Tips for Selecting a Specialization
- Identify Your Interests: Think about whether you’re more drawn to hands-on hardware, software algorithms, or theoretical exploration.
- Consider Career Goals: Explore potential industries and roles that align with each specialization to see where your interests align.
- Talk to Mentors & Professionals: Faculty advisors, professors, and industry professionals can provide valuable insights into each field.
- Review Faculty Webpages: See faculty bios, research areas, and contact information for professors who specialize in the specialization.
- Explore Coursework & Projects: Try out classes or small projects in your areas of interest to get a feel for the work.
- Some ECE elective courses have prerequisites. Ensure that you have completed all required undergraduate coursework before enrolling. If you’re unsure whether you’ve met a course prerequisite, please contact Dr. A. Tye Gardner: averygardner@weber.edu
Embedded Systems
Consider This: If you enjoy hands-on design and creating hardware that directly interacts with software.
Focus: Design and development of microcontrollers, microprocessors, and sensors for use in integrated systems, like automotive electronics, IoT devices, and consumer electronics.
Key Skills: Hardware-software integration, real-time operating systems, system-level design.
Career Path: Roles in consumer electronics, automotive, and industrial automation industries.
Faculty Specialists:
Related Courses |
Descriptions |
Credits |
|
ECE 6210
|
Digital Signal Processing
|
3
|
|
ECE 6620
|
Digital System Testing
|
3
|
|
ECE 6710
|
Real-Time Embedded Systems
|
4
|
|
CS 6610
|
Computer Architecture
|
3
|
Robotics
Consider This: If you’re passionate about building intelligent systems that interact with the physical world.
Focus: Development of autonomous and semi-autonomous robotic systems that combine sensors, algorithms, and actuators for tasks such as navigation, perception, and manipulation.
Key Skills: Mechatronics, programming, embedded systems, optimization, and control systems.
Career Path: Opportunities in manufacturing, healthcare (surgical robots), supply-chain, remote monitoring, and research institutions.
Faculty Specialist:
Related Courses |
Descriptions |
Credits |
|
ECE 6140
|
Sensors and Instrumentation
|
3
|
|
ECE 6220
|
Image Processing
|
3
|
|
ECE 6510
|
Advanced Power Systems
|
3
|
|
ECE 6730
|
Robotics
|
3
|
Artificial Intelligence and Machine Learning
Consider This: If you’re drawn to data-driven decision-making and the potential of intelligent software.
Focus: Creating algorithms and models that enable computers to perform tasks like image recognition, language processing, and predictive analytics.
Key Skills: Neural networks, deep learning, data analysis, and statistical modeling.
Career Path: Roles in tech, finance, healthcare, and autonomous systems development.
Faculty Specialists:
Related Courses |
Descriptions |
Credits |
|
ECE 6210
|
Digital Signal Processing
|
3
|
|
ECE 6220
|
Image Processing
|
3
|
|
ECE 6230
|
Engineering Applications in Deep Learning
|
3
|
|
CS 6600
|
Machine Learning
|
3
|
Signal Processing and Communications
Consider This: If you’re interested in transforming data into meaningful information for audio, image, and communication technologies.
Focus: Analysis and manipulation of signals for applications like image/video processing, communications, and audio engineering.
Key Skills: Digital filtering, and probability/statistics.
Career Path: Careers in telecommunications, media, medical imaging, and defense industries.
Faculty Specialists:
Related Courses |
Descriptions |
Credits |
|
ECE 6210
|
Digital Signal Processing
|
3
|
|
ECE 6220
|
Image Processing
|
3
|
|
ECE 6410
|
Communication Circuits and Systems
|
3
|
|
ECE 6420
|
Digital Communication
|
3
|
|
ECE 6440
|
Optical Communication Systems
|
3
|
Power Systems & Energy Engineering
Consider This: If you’re passionate about sustainable energy and large-scale infrastructure.
Focus: Design, analysis, and management of systems that generate, transmit, and distribute electrical power.
Key Skills: Power electronics, grid infrastructure, renewable energy, and electrical machinery.
Career Path: Roles in utility companies, renewable energy, and smart grid technology development.
Faculty Specialists:
Related Courses |
Descriptions |
Credits |
|
ECE 6510
|
Advanced Power Systems
|
3
|
|
ECE 6160
|
Power Electronics
|
3
|
Material Science and Engineering
Consider This: If you're curious about how materials shape technology and want to develop materials for electronics, energy, or advanced manufacturing.
Focus: Study and development of materials at the atomic and molecular level to enhance performance in electronic, mechanical, and thermal systems.
Key Skills: Materials characterization, nanotechnology, semiconductor physics, and computational modeling.
Career Path: Roles in semiconductor fabrication, aerospace, renewable energy, and advanced manufacturing research and development.
Faculty Specialists:
Related Courses |
Descriptions |
Credits |
|
ECE 6110
|
Digital VLSI Design
|
3
|
|
ECE 6120
|
Analog VLSI Design
|
3
|
|
ECE 6130
|
Advanced Semiconductor Devices
|
3
|
|
ECE 6150
|
Digital Communication
|
3
|
|
ECE 6170
|
Advanced Materials Science and Engineering
|
3
|