Telecommunication

Categories: Telecom
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About Course

  • Introduction to Telecommunications Systems

  • Analog and Digital Communication

  • Modulation Techniques (AM, FM, PM, QAM)

  • Transmission Media (Copper, Fiber Optics, Wireless)

  • Signal Processing and Noise Reduction

  • Multiplexing Techniques (TDM, FDM, CDMA)

  • Telecommunication Networks (LAN, MAN, WAN)

  • Satellite and Microwave Communication

  • Mobile Communication Systems (2G to 5G and beyond)

  • Switching Techniques (Circuit, Packet, Message Switching)

  • Voice over IP (VoIP)

  • Internet Protocols and Networking (TCP/IP, UDP)

  • Network Infrastructure and Devices (Routers, Switches, Hubs)

  • Telecommunication Standards and Regulatory Bodies (ITU, IEEE)

  • Emerging Technologies in Telecom (IoT, 6G, Software-Defined Networking)

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What Will You Learn?

  • By the end of this course, you will be able to:
  • ✅ Understand Core Telecommunication Systems
  • Gain foundational knowledge of how modern telecom systems operate—from transmitters and receivers to end-user devices.
  • ✅ Differentiate Between Analog and Digital Communication
  • Learn how data is transmitted in both analog and digital formats and understand the benefits and use cases of each.
  • ✅ Apply Modulation and Multiplexing Techniques
  • Master key concepts like AM, FM, QAM, TDM, FDM, and CDMA to understand how multiple signals are transmitted efficiently.
  • ✅ Identify and Work With Transmission Media
  • Understand the characteristics of copper cables, fiber optics, microwave, and wireless communication systems.
  • ✅ Analyze and Process Telecommunication Signals
  • Develop the ability to filter, compress, and optimize signals for better quality and noise reduction.
  • ✅ Understand the Architecture of Telecommunication Networks
  • Explore the structure of LAN, WAN, MAN, and mobile networks, and understand how they support global communication.
  • ✅ Configure and Monitor Mobile and Satellite Communications
  • Study how 2G to 5G networks operate, including base stations, handovers, and satellite relays.
  • ✅ Use Switching and Routing Techniques
  • Learn how voice and data are routed using circuit switching, packet switching, and other network routing protocols.
  • ✅ Implement and Manage VoIP and IP-Based Communication
  • Understand how voice data travels over the Internet and how to set up and manage VoIP systems.
  • ✅ Understand Internet Protocols and Network Devices
  • Get hands-on knowledge of TCP/IP, UDP, routers, switches, and how they all work together to deliver connectivity.
  • ✅ Follow Global Telecom Standards
  • Learn about key regulatory bodies (like ITU and IEEE) and how international standards shape telecom development.
  • ✅ Explore Emerging Technologies
  • Get introduced to innovations like 6G, IoT, cloud-based telecom, and AI in network optimization.

Course Content

Introduction to Telecommunications Systems
Introduction to the basic structure and function of telecommunication systems, including transmitters, receivers, and transmission media. Covers the role of communication in modern society.

Analog and Digital Communication
Examines how information is transmitted using analog and digital signals, highlighting differences, advantages, and the digital transformation in telecom systems.

Modulation Techniques (AM, FM, PM, QAM)
Covers methods like AM, FM, PM, and QAM used to encode information onto carrier waves for effective transmission over various media.

Transmission Media (Copper, Fiber Optics, Wireless)
Explores physical and wireless transmission channels such as coaxial cables, fiber optics, microwave, and radio waves, including their characteristics and use cases.

Signal Processing and Noise Reduction
Focuses on techniques used to enhance, filter, and transform signals to improve communication quality and reduce noise or distortion.

Multiplexing Techniques (TDM, FDM, CDMA)
Discusses methods such as Time Division Multiplexing (TDM), Frequency Division Multiplexing (FDM), and Code Division Multiple Access (CDMA) to combine multiple signals over a single channel.

Telecommunication Networks (LAN, MAN, WAN)
Covers the design and function of different types of networks (LAN, MAN, WAN), including network architecture, topology, and communication protocols.

Satellite and Microwave Communication
Introduces the principles of satellite systems, including orbits, uplink/downlink processes, and applications like global broadcasting and GPS.

Mobile Communication Systems (2G to 5G and beyond)
Studies cellular systems from 1G to 5G (and future 6G), exploring technologies, architectures, and services in wireless and mobile communication.

Switching Techniques (Circuit, Packet, Message Switching)
Explains the methods used to route data through a network, including circuit switching, packet switching, and message switching.

Voice over IP (VoIP)
Discusses how voice signals are transmitted over the Internet, including codecs, protocols (like SIP and RTP), and quality of service considerations.

Internet Protocols and Networking (TCP/IP, UDP)
Focuses on key networking protocols like TCP, IP, and UDP, and how they ensure end-to-end communication across diverse networks.

Network Infrastructure and Devices (Routers, Switches, Hubs)
Explores the components that make up telecom networks, routers, switches, servers, and how they interconnect and function.

Telecommunication Standards and Regulatory Bodies (ITU, IEEE)
Provides insight into global regulatory and standards bodies (e.g., ITU, IEEE), and the role of standardization in interoperability and safety.

Emerging Technologies in Telecom (IoT, 6G, Software-Defined Networking)
Reviews cutting-edge trends such as 6G, IoT, edge computing, software-defined networking (SDN), and AI-driven telecom services.

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