What You Will Gain

Year 1: Foundation in Telecommunications Engineering (120 Credits)

Introduction to Telecommunications Engineering

• Understand the fundamental concepts, terminologies, and roles in telecommunications.
• Describe the evolution of telecom systems and their impact on society.

Mathematics for Telecommunications

• Apply mathematical methods to solve problems in signal processing and network design.
• Utilize algebra, calculus, and probability to analyze telecom engineering scenarios.

Electrical Circuit Analysis

• Analyze and design basic electrical circuits for telecommunications.
• Evaluate the performance of circuits using theorems and simulation tools.

Digital Logic and Systems

• Understand the principles of digital logic and Boolean algebra.
• Design and analyze combinational and sequential logic circuits.

Signals and Systems

• Explain signal types, properties, and transformations in telecom systems.
• Apply Fourier and Laplace transforms to analyze time-domain and frequency-domain signals.

Principles of Communication Systems

• Understand the fundamentals of analog and digital communication systems.
• Explain modulation techniques and their applications.

Data Communication and Networking Fundamentals

• Identify key concepts in data transmission, encoding, and protocols.
• Explain the OSI and TCP/IP models and their layers.

Electronics for Telecommunications

• Analyze electronic components and circuits used in telecom systems.
• Design basic amplifiers, oscillators, and power supplies.

Antennas and Wave Propagation Basics

• Understand the basic principles of antenna design and wave propagation.
• Analyze the impact of environmental factors on signal transmission.

Technical Drawing and CAD for Telecom Systems

• Create technical drawings using Computer-Aided Design (CAD) tools.
• Interpret and produce schematics for telecom installations.

Health and Safety in Telecom Installations

• Recognize and apply health and safety standards in telecom environments.
• Assess risks and implement safety measures in installations.

Professional Communication Skills

• Develop effective written and verbal communication skills.
• Demonstrate professional reporting and presentation techniques.

Year 2: Intermediate Telecommunications Engineering (120 Credits)

Advanced Communication Systems

• Analyze advanced analog and digital communication techniques.
• Evaluate system performance under various noise and interference conditions.

Wireless and Mobile Communication

• Explain the principles of wireless communication and mobile network architectures.
• Analyze the design and optimization of cellular networks, including 4G LTE.

Optical Fiber Communication

• Understand the working principles of optical fiber systems.
• Design and evaluate fiber optic communication links for efficiency.

Microwave Engineering

• Analyze microwave devices and systems for telecom applications.
• Design basic microwave circuits, including waveguides and transmission lines.

Internet of Things (IoT) in Telecommunications

• Explain the role of IoT in modern telecom networks.
• Develop basic IoT applications and integrate them with telecom systems.

Network Design and Management

• Design and implement efficient telecom networks.
• Manage network performance, security, and scalability.

Telecom Switching Systems and Networks

• Understand switching technologies, including circuit and packet switching.
• Analyze and design telecom switching systems for voice and data networks.

Satellite Communication Systems

• Explain the principles of satellite communication and orbital mechanics.
• Design and evaluate satellite links for communication and broadcasting.

Advanced Signal Processing

• Apply advanced techniques for filtering, modulation, and noise reduction.
• Analyze the role of digital signal processing (DSP) in telecom systems.

Telecom Project Management

• Plan, execute, and manage telecom projects effectively.
• Apply project management tools and techniques to ensure timely delivery.

Emerging Trends in 5G and Beyond

• Explore the principles and applications of 5G networks and emerging technologies.
• Analyze the role of next-generation communication systems in global connectivity.

Capstone Project in Telecommunications

• Develop a comprehensive project addressing a real-world telecom problem.
• Demonstrate technical, analytical, and project management skills.