5 Must Know Facts For Your Next Test

1. Bus topology is easy to implement and requires less cable than other topologies like star or ring, making it cost-effective.
2. Each device in a bus topology listens for data packets on the bus, which can lead to data collisions if two devices send data simultaneously.
3. Terminating resistors are used at both ends of the bus to prevent signal reflection that can cause interference.
4. While bus topology is straightforward, it is less reliable than other topologies because a fault in the bus can bring down the whole network.
5. Bus topology is ideal for small networks but may not scale well for larger networks due to increased data collisions and maintenance difficulties.

Review Questions

• How does the structure of bus topology influence data transmission among connected devices?
  • In bus topology, all devices share a single central cable, which means that when one device sends data, it travels along the bus for all other devices to receive. This setup can lead to data collisions if multiple devices attempt to transmit simultaneously. The structure necessitates that devices listen for incoming data, making it essential to implement collision detection mechanisms to ensure efficient communication.
• What are the advantages and disadvantages of using bus topology compared to other network topologies?
  • Bus topology offers several advantages, such as low installation costs and simplicity, making it ideal for small networks. However, its main disadvantage is that if the central cable (the bus) fails, the entire network goes down. Additionally, as more devices are added to the network, data collisions become more frequent, which can significantly degrade performance compared to topologies like star or ring where such risks are minimized.
• Evaluate how the limitations of bus topology impact its effectiveness in large-scale network environments.
  • In large-scale network environments, bus topology faces significant limitations that hinder its effectiveness. As the number of connected devices increases, the likelihood of data collisions rises sharply, leading to decreased network efficiency and potential data loss. Moreover, maintaining the integrity of the central cable becomes increasingly challenging; any disruption can halt communication entirely. These factors make bus topology less suitable for expansive networks, where more robust solutions like star or mesh topologies are typically preferred for their reliability and scalability.

© 2024 Fiveable Inc. All rights reserved.

AP® and SAT® are trademarks registered by the College Board, which is not affiliated with, and does not endorse this website.