This module covers the applications of multiplexing in various communication systems, highlighting its importance in enhancing data transmission efficiency. Students will analyze case studies and real-world applications to understand multiplexing's role in modern technology.
This module introduces students to the course objectives and structure, providing an overview of key topics related to data communication. Students will understand the importance of data communication in modern technology and its applications.
This module covers the concept of layered architecture in data communication. Students will learn about the different layers of a communication system, including their functions and interactions. The OSI model will be emphasized, showcasing how each layer contributes to the overall communication process.
This module introduces the relationship between data and signals, emphasizing how data is represented as signals in communication systems. It covers both discrete and continuous signals, discussing their properties and how they are manipulated for effective communication.
This module focuses on transmission impairments and channel capacity, examining how various factors affect data transmission quality. Students will learn about noise, distortion, and attenuation, along with the concept of channel capacity and its significance in data communication.
This module explores guided transmission media, detailing various types such as twisted pair, coaxial cable, and fiber optics. Students will understand the advantages and disadvantages of each medium, as well as their applications in real-world communication systems.
This module addresses unguided media, focusing on wireless transmission methods such as radio waves, microwaves, and infrared communication. Students will learn about the principles of wireless communication, its benefits, and challenges, as well as its applications in modern technology.
This module covers the transmission of digital signals, exploring various techniques used to transmit binary data efficiently. Students will learn about pulse shaping, encoding methods, and the impact of inter-symbol interference on signal integrity.
This module continues the discussion on digital signal transmission, diving deeper into advanced techniques and technologies that enhance data transfer rates and reliability. Students will analyze various signaling schemes and their applications in real-world scenarios.
This module examines the transmission of analog signals, discussing the principles and techniques involved in effectively communicating analog information. Students will learn about modulation techniques and the challenges associated with analog signal transmission.
This module continues the exploration of analog signal transmission, providing deeper insights into various modulation techniques and their applications. Students will analyze the effectiveness of different approaches in maintaining signal quality over distances.
This module introduces the concept of multiplexing, explaining how multiple signals can be combined for efficient transmission over a single medium. Students will learn about various multiplexing techniques, including Time Division and Frequency Division multiplexing, and their applications.
This module continues the exploration of multiplexing, discussing advanced techniques and applications. Students will gain insights into statistical multiplexing and its benefits for optimizing bandwidth usage in communication systems.
This module covers the applications of multiplexing in various communication systems, highlighting its importance in enhancing data transmission efficiency. Students will analyze case studies and real-world applications to understand multiplexing's role in modern technology.
This module continues the discussion on multiplexing applications, focusing on its implementation in different communication technologies. Students will learn about the challenges and solutions related to multiplexing in practical scenarios.
This module discusses how to effectively interface with transmission media, covering the essential hardware and software components involved. Students will understand the role of modems and other devices in facilitating communication between different media types.
This module introduces error detection and correction techniques, explaining how to identify and rectify errors that occur during data transmission. Students will learn about various coding schemes and their effectiveness in ensuring data integrity.
This module continues the exploration of flow and error control mechanisms in data communication. Students will learn about various protocols and techniques used to manage data flow and ensure reliable communication between devices.
This module covers data link control protocols, focusing on how devices communicate over a link. Students will learn about various protocols used in data link layer communication, including HDLC and PPP, and their applications.
This module discusses circuit switching techniques, explaining how dedicated communication paths are established for data transmission. Students will learn about the advantages and limitations of circuit switching, as well as its applications in traditional telephony.
This module focuses on packet switching techniques, detailing how data is transmitted in small packets over a network. Students will learn about the benefits of packet switching, including flexibility and efficient use of network resources.
This module introduces routing concepts, explaining how data packets are directed through a network. Students will learn about various routing algorithms and protocols that determine the most efficient paths for data transmission.
This module continues the exploration of routing techniques, focusing on advanced protocols used in modern networking. Students will learn about dynamic routing, distance vector protocols, and link-state routing, emphasizing their applications in real-world scenarios.
This module discusses congestion control techniques in data networks, highlighting methods to manage data flow and prevent network overload. Students will learn about various congestion control algorithms and their effectiveness in maintaining network performance.
This module covers X.25 and Frame Relay technologies, detailing how they facilitate data communication in packet-switched networks. Students will understand the features, benefits, and limitations of each technology and their applications.
This module discusses ATM (Asynchronous Transfer Mode) protocols, emphasizing their role in high-speed data communication. Students will learn about ATM's architecture, cell structure, and its applications in multimedia networking.
This module explores Medium Access Control (MAC) techniques, explaining how devices access and share transmission media. Students will learn about various MAC protocols, including CSMA/CD and token ring, and their applications in network communication.
This module continues the exploration of Medium Access Control techniques, delving into advanced protocols and their effectiveness in managing access to shared media. Students will analyze case studies highlighting the impact of MAC protocols on network performance.
This module further explores Medium Access Control techniques, focusing on wireless MAC protocols and their specific challenges. Students will learn how MAC protocols are adapted for wireless environments to ensure efficient data transmission.
This module introduces IEEE 802 LAN standards, detailing the protocols and technologies used in local area networks. Students will understand the significance of IEEE 802 standards for network interoperability and performance.
This module covers high-speed LAN technologies, discussing how advancements in networking have led to increased data transfer rates. Students will learn about technologies like Fast Ethernet and Gigabit Ethernet, as well as their applications in modern networking.
This module focuses on wireless LAN technologies, detailing the protocols and standards that enable wireless communication in local area networks. Students will learn about Wi-Fi standards and their impact on connectivity and performance.
This module discusses cellular telephone systems, explaining their architecture, protocols, and technologies. Students will learn about the evolution of cellular networks and the role of mobile communication in today's society.
This module covers satellite communications, discussing how satellites facilitate global data transmission. Students will learn about satellite technology, applications, and the challenges associated with satellite communication systems.
This module introduces the Internet and internetworking concepts, detailing how various networks are interconnected. Students will learn about the architecture of the Internet and protocols that enable communication across different networks.
This module focuses on TCP/IP protocols, explaining their significance in network communication. Students will learn about the TCP/IP model, its layers, and how it facilitates data transmission over the Internet.
This module continues the exploration of TCP/IP protocols, diving deeper into their functionalities and applications. Students will learn about various TCP/IP services and how they support modern networking.
This module discusses multimedia networks, explaining how they support audio, video, and data transmission. Students will learn about the requirements for multimedia communication and the protocols involved in delivering quality services.
This module focuses on audio and video compression techniques, discussing how they enable efficient transmission of multimedia content. Students will learn about various compression algorithms and their impact on quality and bandwidth.
This module explores multimedia services, detailing how various protocols and technologies deliver multimedia content. Students will learn about the challenges of providing quality multimedia services in diverse environments.
This module introduces secured communication principles, emphasizing the importance of protecting data during transmission. Students will learn about encryption methods, secure protocols, and best practices for ensuring confidentiality and integrity.
This module continues the exploration of secured communication, discussing advanced techniques and protocols used to ensure secure data transmission. Students will learn about the latest trends in cybersecurity related to data communication.