5 Must Know Facts For Your Next Test

1. In a star topology, if one connection fails, it does not affect the rest of the network, making it more resilient compared to other configurations like bus topology.
2. Star topology is widely used in home and office networks due to its simplicity and effectiveness in handling high traffic volumes.
3. The central hub or switch in a star topology can often provide additional features such as network management, monitoring, and security.
4. Star topology supports both wired and wireless connections, enabling flexibility in device connectivity.
5. When scaling IoT applications, star topology allows for easy integration of new sensors and devices without major disruptions to the existing setup.

Review Questions

• How does star topology facilitate easier troubleshooting compared to other network topologies?
  • Star topology allows for easier troubleshooting because all devices connect to a central hub or switch. If there’s an issue with a device, it can be quickly isolated since the rest of the network remains unaffected. This makes it simpler to identify and resolve problems without impacting other connected devices, unlike in bus topology where a single failure can bring down the entire network.
• Discuss how scalability in star topology impacts the implementation of IoT systems.
  • Scalability is a key advantage of star topology when implementing IoT systems. As more IoT devices need to be added, they can easily connect to the central hub without requiring significant changes to the existing network structure. This flexibility supports rapid growth in IoT deployments, enabling organizations to expand their systems as needed while maintaining reliable performance.
• Evaluate the advantages and disadvantages of using star topology in large-scale IoT applications.
  • Using star topology in large-scale IoT applications has significant advantages, including easy management and quick troubleshooting thanks to its centralized nature. However, it also comes with drawbacks such as dependency on the central hub; if it fails, the entire network goes down. Furthermore, implementing a large number of connections can lead to increased costs and potential performance bottlenecks at the hub as more devices are added, requiring careful planning for future expansions.

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