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Scenarios in Wired Networks

Scenarios in  wired networks in Hindi 


  • Wired networking is still used in various scenarios, especially when security, stability, and high data transfer speeds are required. Whether it is for domestic use, office networking, or large-scale data centers, a wired network provides a reliable and efficient solution.
  • In different scenarios, a wired network is designed and managed according to the needs of the network.
  • A wired network is still used in various places today, especially in areas where stability, security, and high speed are required. A wired network is used in various types of scenarios,
  • and in each scenario, the design of the network and the use of protocols can be different. Let's understand the different scenarios of a wired network in detail:
1. Home Networking:

In homes, a wired network is commonly used for internet access and to connect various devices to each other. In this, devices like computers, printers, smart TVs, and gaming consoles are connected to a router or switch by a cable.

Features:

  • Ethernet Cable: An Ethernet cable (CAT5e or CAT6) is used.
  • Stable Connection: A wired connection is more stable and faster than wireless, which is better for gaming or streaming.
  • Security: A wired network is more secure than a wireless network because it requires physical access.
2. Office Networking

Wired networking is more common in offices, especially in large organizations where there are many computers and other devices that are connected to each other. Here, the stability and speed of the network are extremely important.

Features:

  • Local Area Network (LAN): A local area network is used in offices, in which computers are connected by a cable through a switch or router.
  • Various Subnets: A large network is divided into various subnets so that traffic management and security can be enhanced.
  • Network Management: A network manager monitors and manages the network, which includes server status, network traffic, and security monitoring.
3. Data Center Networking

Data centers are places where a large amount of data is stored and processed. Wired networking is extremely important in a data center because it ensures fast and secure data transmission.

Features:

  • High-Speed Ethernet: A high-speed Ethernet connection (10 Gbps or more) is commonly used in a data center.
  • Fiber Optic Cables: Fiber optic cables are used for high data transfer speeds and long distances.
  • Network Virtualization: Network virtualization is used in a data center so that the network can be managed efficiently and resources can be used better.
4. Campus Networking

A campus network is used in universities and large institutions, in which many buildings are connected together. This is a complex scenario of wired networking because it provides different network protocols and services for different departments and users.

Features:

  • Metropolitan Area Network (MAN): A metropolitan area network can be used in a large campus network.
  • Multiple Switches: The network is managed through various switches and routers.
  • Mix of Wireless and Wired: Both wired and wireless connections are used in a campus network. Wired connections are used in labs and classrooms, while wireless is used in open areas.
5. Enterprise Networking

Enterprise networking in large businesses is a complex structure that includes various types of network technology and services. Here, the design of the network should be extremely secure and scalable so that thousands of users can be served.

Features:

  • Virtual Private Network (VPN): A VPN is used for secure data exchange.
  • Wired Backbone: For a large office or a group of offices, a wired backbone is used that connects all the small networks together.
  • Hybrid Network: Enterprise networks often have hybrid models, where both wired and wireless are used, but important traffic is always based on a wired link.
6. Manufacturing and Industrial Networking

Wired networking is used in manufacturing plants and industrial settings for communication between machines and equipment. Here, the network needs to be extremely reliable and have low latency.

Features:

  • Industrial Ethernet: Industrial Ethernet is used in the manufacturing industry, which provides fast and secure communication.
  • Predictive Maintenance: A wired network enables a system that monitors and predicts the health of machines.
  • Real-Time Communication: Wired networks are more reliable for real-time data transfer between machines.
7. Multimedia Streaming Networks

A wired network is commonly used for multimedia streaming because it requires high bandwidth, especially when live video streaming or HD video is being used.

Features:

  • QoS (Quality of Service): A QoS protocol is used to maintain quality in multimedia streaming.
  • High Bandwidth: High bandwidth is required to transfer streaming data smoothly.
  • Low Latency: A wired network has low latency, so there is no interruption in live streaming.
8. Sensitive and Secure Networks

A wired network is used in banks, hospitals, and government departments because the security and privacy of data are most important here. A wired network provides physical security and more control.

Features:

  • Encryption: Encryption is used during data transmission so that no unauthorized user can access the data.
  • Wired Sectioning: Different departments and parts of the network are placed on different wired links for security reasons.
  • Redundancy: A high-security network has backup links so that if the main link fails, the network does not go down.

In this Chapter

Scenarios in Wired Networks
Auto-Configuration and Anycast
Modified EUI-64 | What is Modified EUI-64?
Architecture of Mobile Computing
Wireless LAN in Hindi | What is Wireless LAN?
Wireless User Devices
MAC Protocol | What is MAC Protocol?
IEEE 802.11 | What is IEEE 802.11
Mobile IP | What is Mobile IP
Wireless TCP/IP
Unicast & Multicast Communication
Bluetooth | What is Bluetooth?
NS2 & NAM | What are NS2 and NAM?
Purpose & installation of NS2 & NAM
Background of NS2 & NAM
Architecture of NS2 & NAM
Interface of OTcl & C++
Trace Files & Formats
Protocol Support of NS2
Simulation Object of NS2 & NAM
Basic Syntax of NS2 & NAM
Node Creation of NS2 & NAM
Running NS2 & NAM
Finish Procedure NS2 & NAM
Invoking external commands within NS2
Nodes & Agents of NS2 & NAM
NS2 Commands
Creating Links in Wired Network
Setting Link Parameters
Sending Traffics Through NS2 Links
Routing Protocol Support of NS2
Additional Parameters
Setting node positions
God object & topography
Protocol Support
Scenarios in Wireless Networks
What is the Internet? Difference Between Intranet and Extranet
Types of Internet
OSI Model and its Layers
Computer Network (CN) All Important Questions and Answers in English (MDSU)
BCA | Computer Network | 2025 Paper | MDSU Exam Paper
Importance of the Layer Model in Computer Networks
Network Classification
Network Topology
Network Switching & Components
Ethernet
Token Ring
Basic Networking Concepts & Cabling
What is a Computer in English?
Bridges in Computer Networks
Routers in Computer Networks
Gateways in Computer Networks
Public & Private Networks
FDMA (Frequency Division Multiple Access)
BCA | CN(Computer Network) Paper | 2023 MDSU Exam Paper
What is World Wide Web (WWW)
TDMA, SDMA, CDMA
Personal Communication System | What is PCS
IPv4 | What is IPv4?
Subnetting IPv4 Address
Casting in IPv4
Private IPv4 Addressing
IPv4 Address Scheme
IPv6 Addressing Scheme
Types of IPv6 Addressing