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  • Course Description: This course covers the principles and technologies of data communication and networking, including network architectures, protocols, and data transmission techniques. Students will learn to design and manage data communication networks. Course Objectives:
    1. Understand the principles of data communication and networking.
    2. Learn about network architectures and communication protocols.
    3. Develop strategies for data transmission and network management.
    4. Implement data communication networks and ensure their reliability.
    5. Evaluate the performance and challenges of data communication networks.
    Course Outcomes:
    1. Explain the principles of data communication and networking.
    2. Design and implement network architectures and communication protocols.
    3. Develop and apply strategies for data transmission and network management.
    4. Ensure the reliability and performance of data communication networks.
    5. Assess and improve the performance of data communication networks.
  • Course Description: This course explores the design, implementation, and management of broadband networks and services, including DSL, cable, and fiber optic technologies. Students will learn about the principles of broadband communication and the delivery of high-speed internet services. Course Objectives:
    1. Understand the principles of broadband communication.
    2. Learn about different broadband technologies and their applications.
    3. Develop strategies for designing and implementing broadband networks.
    4. Study the delivery and management of high-speed internet services.
    5. Evaluate the impact of broadband networks on communication services.
    Course Outcomes:
    1. Explain the principles of broadband communication.
    2. Identify and apply various broadband technologies.
    3. Design and implement broadband networks effectively.
    4. Manage the delivery of high-speed internet services.
    5. Assess the impact of broadband networks on communication services.
  • Course Description: This course covers the principles and practices of mobile network planning and optimization, including radio frequency planning, capacity management, and network performance analysis. Students will learn to design and optimize mobile networks for maximum efficiency. Course Objectives:
    1. Understand the principles of mobile network planning.
    2. Learn about radio frequency planning and capacity management.
    3. Develop strategies for optimizing mobile network performance.
    4. Implement techniques for network performance analysis and improvement.
    5. Evaluate the impact of planning and optimization on mobile network operations.
    Course Outcomes:
    1. Design and plan mobile networks effectively.
    2. Implement radio frequency planning and capacity management techniques.
    3. Optimize mobile network performance through targeted strategies.
    4. Analyze and improve network performance using advanced techniques.
    5. Assess the impact of planning and optimization on mobile network operations.
  • Course Description: This course focuses on cybersecurity practices and principles in telecommunications, including network security, data protection, and threat mitigation. Students will learn to develop and implement security measures to protect communication systems. Course Objectives:
    1. Understand the principles of cybersecurity in communications.
    2. Learn about network security and data protection techniques.
    3. Develop strategies for mitigating security threats in telecommunications.
    4. Implement cybersecurity measures to protect communication systems.
    5. Evaluate the impact of cybersecurity practices on telecommunications operations.
    Course Outcomes:
    1. Explain the principles of cybersecurity in communications.
    2. Implement network security and data protection techniques.
    3. Develop and apply strategies for mitigating security threats.
    4. Assess the impact of cybersecurity practices on operations.
    5. Improve cybersecurity measures in telecommunications through targeted strategies.
  • Course Description: This course covers the principles and technologies of satellite communication systems, including satellite orbits, transponders, and ground stations. Students will learn about the design and operation of satellite communication networks. Course Objectives:
    1. Understand the principles of satellite communication.
    2. Learn about satellite orbits and transponder technologies.
    3. Explore the design and operation of satellite ground stations.
    4. Study the applications of satellite communications in various fields.
    5. Analyze the performance and challenges of satellite communication systems.
    Course Outcomes:
    1. Explain the principles of satellite communication.
    2. Describe satellite orbits and transponder technologies.
    3. Design and operate satellite ground stations effectively.
    4. Identify and apply various applications of satellite communications.
    5. Assess the performance and challenges of satellite communication systems.
  • Course Description: This course explores the role of the Internet of Things (IoT) in communications, including IoT architectures, protocols, and applications. Students will learn about the impact of IoT on communication networks and services. Course Objectives:
    1. Understand the principles of the Internet of Things (IoT).
    2. Learn about IoT architectures and communication protocols.
    3. Explore various applications of IoT in communications.
    4. Study the impact of IoT on communication networks and services.
    5. Develop strategies for implementing IoT in telecommunications.
    Course Outcomes:
    1. Explain the principles of the Internet of Things (IoT).
    2. Describe IoT architectures and communication protocols.
    3. Identify and apply various IoT applications in communications.
    4. Assess the impact of IoT on communication networks and services.
    5. Develop and implement strategies for IoT in telecommunications.
  • Course Description: This course focuses on the principles and technologies of fiber optic communications, including light transmission, optical fibers, and network design. Students will learn about the advantages and applications of fiber optic communication systems. Course Objectives:
    1. Understand the principles of fiber optic communication.
    2. Learn about light transmission and optical fiber technologies.
    3. Explore the design and implementation of fiber optic networks.
    4. Study the advantages and applications of fiber optic communications.
    5. Analyze the performance and challenges of fiber optic systems.
    Course Outcomes:
    1. Explain the principles of fiber optic communication.
    2. Identify and describe various optical fiber technologies.
    3. Design and implement fiber optic networks.
    4. Assess the advantages and applications of fiber optic communications.
    5. Evaluate the performance and challenges of fiber optic systems.
  • Course Description: This course covers the principles and applications of wireless communication technologies, including cellular networks, Wi-Fi, and satellite communications. Students will learn about the design and operation of wireless communication systems. Course Objectives:
    1. Understand the principles of wireless communication.
    2. Learn about various wireless communication technologies.
    3. Explore the design and operation of cellular networks.
    4. Study the applications of Wi-Fi and satellite communications.
    5. Analyze the performance and challenges of wireless communication systems.
    Course Outcomes:
    1. Explain the principles of wireless communication.
    2. Identify and differentiate between various wireless communication technologies.
    3. Design and operate cellular networks effectively.
    4. Utilize Wi-Fi and satellite communications in practical applications.
    5. Assess the performance and challenges of wireless communication systems.
  • Course Description: This course focuses on the management of network infrastructure, including the design, implementation, and maintenance of telecommunications networks. Students will learn to optimize network performance and reliability. Course Objectives:
    1. Understand the principles of network infrastructure management.
    2. Learn about the design and implementation of telecommunications networks.
    3. Develop strategies for maintaining network infrastructure.
    4. Optimize network performance and reliability.
    5. Evaluate the impact of network management practices on telecommunications operations.
    Course Outcomes:
    1. Design and implement telecommunications networks.
    2. Develop and implement maintenance strategies for network infrastructure.
    3. Optimize the performance and reliability of telecommunications networks.
    4. Assess the impact of network management practices on operations.
    5. Improve network infrastructure management through targeted strategies.
  • Course Description: This course covers the principles and techniques of digital communication systems, including modulation, coding, and signal processing. Students will learn about the design and operation of digital communication systems. Course Objectives:
    1. Understand the principles of digital communication.
    2. Learn about modulation techniques and their applications.
    3. Explore coding methods for error detection and correction.
    4. Study signal processing techniques in digital communication.
    5. Analyze the performance of digital communication systems.
    Course Outcomes:
    1. Explain the principles of digital communication.
    2. Apply modulation techniques in digital communication systems.
    3. Implement coding methods for error detection and correction.
    4. Utilize signal processing techniques in digital communications.
    5. Evaluate the performance of digital communication systems.

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