Bachelor of Science in Computer Engineering is a three-year (or more) undergraduate program that seamlessly combines principles from electrical engineering and computer science, equipping students to design, develop, integrate, and maintain both hardware and software components in computing systems and automated environments.
Throughout the program, students will develop expertise in areas such as:
Circuit design, digital systems, microprocessors, and embedded systems
Computer programming, operating systems, networking, and AI systems
Analytical thinking, problem-solving, and effective communication
Versatility across hardware and software, bridging the gap between disciplines
Prepares students for roles in high-demand advances like AI, cybersecurity, IoT, and robotics
Graduates move into emerging roles - CTO, product architect, R&D lead - or pivot into research, fintech, or biotech
Hardware/FPGA/ASIC Engineer
Cybersecurity Specialist
Software Developer/Engineer
Web Developer
Game Developer
Computer Systems Analyst
Systems Administrator
Data Scientist
Data Engineer
Network Engineer/Architect
Cloud Engineer
UX/UI Designer
Microprocessor Designer
Firmware Engineer
Full-Stack Developer
Systems Engineer
DevOps Engineer
Artificial Intelligence and Machine Learning (AI/ML) Engineer
Security Analyst
Ethical Hacker
Cybersecurity Engineer
Robotics Engineer
Database Administrator
IoT Device Engineer
IT Consultant / Solutions Architect
R&D Engineer / Technopreneur
Faculty / Lab Instructor / Curriculum Developer
specializes in CISCO Networking and Robotics Technology
BACHELOR OF SCIENCE IN ELECTRONICS ENGINEERING
DESCRIPTION
WHY CHOOSE THIS COURSE?
CAREER PATHS AFTER GRADUATION
The Bachelor of Science in Electronics Engineering (BSELE) is a four-year program that merges core engineering disciplines - mathematics, physics, computer systems - with specialized fields like electronics, communications, microelectronics, instrumentation, and control systems. This program emphasizes both theoretical knowledge and hands-on laboratory experience, including simulations, capstone projects, and industry internships.
Through project-based learning and real-world training, students will learn how to:
Apply math and science to solve complex electronics engineering challenges
Design, analyze, and test electronic systems, devices, and communication networks
Implement telecommunications, signal processing, power electronics, and embedded systems
Conduct research and innovation through multidisciplinary teamwork, ethical responsibility, and lifelong learning
Work on cutting-edge industries: semiconductors, automation, telecommunications, robotics, broadcasting, biomedical devices, and more
Opportunity to specialize in microelectronics, communications, and instrumentation/control
Build technical fluency and design thinking through labs, projects, internships, and capstones
Strong foundation for professional board licensure (PECE), graduate studies, R&D roles, and technopreneurship
Electronics Design Engineer
Instrumentation and Control Engineer
Test Engineer
Systems Engineer
Network Engineer
Research and Development (R&D) Engineer
Project Manager
Quality Assurance Engineer
Telecommunications Engineer/li>
Radio Frequency (RF) Engineer
Broadcast Engineer
Computer Systems Engineer
Embedded Systems Engineer
Software Engineer
Biomedical Engineer
Aerospace Engineer
Robotics Engineer
Technical Sales Engineer
Technopreneur
Microelectronics Designer
Semiconductor Fabrication Engineer
Industrial Electronics Engineer
Robotics and Mechatronics Systems Developer
Automation and Process Control Engineer
Signal Processing Engineer
Optics/Electro-Optics Engineer
Medical Electronics Designer
specializes in Telecommunication and Broadcasting
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