College: Graduate School of Science and Engineering

This interdisciplinary program combines electrical and electronic engineering with cyber systems, focusing on the design and implementation of electrical systems, electronic devices, and cyber-physical systems. Students explore circuit design, signal processing, control systems, cybersecurity, and the Internet of Things. The program emphasizes technical skills and creative thinking to address modern technological challenges. Graduates are prepared for careers in electronics manufacturing, communication, cybersecurity, and various engineering fields.

Learning Objectives:

• Understand the fundamentals of electrical and electronic engineering and internet systems.
• Develop skills in circuit design, signal processing, control systems, and cybersecurity.
• Learn techniques for analyzing and designing electrical and electronic systems.
• Explore the role of cyber-physical systems in modern technology.
• Understand regulatory standards, ethical considerations, and safety in engineering.
• Analyze challenges and opportunities in electrical and electronic engineering and internet systems.
• Develop teamwork and problem-solving skills for engineering projects.

Main Outline:

1. Introduction to Electrical and Electronic Engineering and Internet Systems - Overview of electrical and electronic engineering and internet systems.
2. Circuit Design and Analysis - Principles of circuit design and techniques for analyzing electrical and electronic circuits.
3. Signal Processing - Basics of signal processing and techniques for implementing signal processing systems.
4. Control Systems - Principles of control systems and techniques for designing and analyzing control systems.
5. Cybersecurity - Basics of cybersecurity and techniques for implementing security measures in electrical and electronic systems.
6. Internet of Things (IoT) - Principles of the Internet of Things and techniques for designing and implementing IoT systems.
7. Embedded Systems - Basics of embedded systems and techniques for designing and implementing embedded systems.
8. Regulatory Standards and Ethical Considerations - Understanding regulatory standards, ethical considerations, and safety in engineering.
9. Emerging Trends - Analysis of innovations such as artificial intelligence, machine learning, and quantum computing.
10. Graduation Project - Practical project applying skills acquired in the design, implementation, or analysis of electrical, electronic, or cyber-physical systems.

Assessment Methods:

Circuit design projects, signal processing implementation, control system analysis, cybersecurity planning, IoT system designs, research papers, group projects, and internships.

Recommended Textbooks:

• "Electric Circuit Analysis" by Spann.
• "Signal Processing and Linear Systems" by Lathi.
• "Control System Design" by Bernard Friedland.
• "Cybersecurity: Principles and Practice" by S. S. Y. Shieh et al.
• "Internet of Things: Principles and Paradigms" by Rajkumar Buyya and Sheng W.

Prerequisites:

Basic knowledge of physics, mathematics, and engineering principles. Suitable for students in electrical engineering, electronic engineering, computer engineering, and related fields.

Duration of Specialization:

Typically 4 years for a bachelor's degree, including coursework, projects, and internships.

Certification:

Graduates may obtain a degree in Electrical, Electronic Engineering, and Internet Systems, and pursue certifications such as Certified Information Systems Security Professional (CISSP) or Certified Ethical Hacker (CEH).

Target Audience:

Aspiring electrical engineers, electronic engineers, cybersecurity specialists, and professionals seeking specialization in electrical, electronic, and internet systems engineering. This specialization provides students with the skills necessary to excel in electrical and electronic engineering and internet systems, supporting advancements in technology, cybersecurity, and innovative engineering solutions.