Telecom Techniques Guide


What is an example of 5G network slicing?

5G network slicing is a groundbreaking technology that divides the 5G network into virtual slices, each customized for specific needs. For instance, in smart manufacturing, a dedicated network slice can ensure ultra-low latency for robotic assembly lines, high reliability through redundancy, ample bandwidth for real-time data, and robust security measures to protect sensitive information. This customization empowers industries to optimize their network for specific applications, enhancing efficiency and performance.

What is an example of 5G network slicing?

Here’s a detailed explanation with an example:

Understanding 5G Network Slicing:

5G network slicing is a revolutionary concept that enables the customization of network services to cater to various use cases and applications. It divides the 5G network into distinct logical network slices, each designed to deliver specific performance characteristics tailored to the needs of different services or industries.

Example of 5G Network Slicing:

Let’s explore an example of 5G network slicing in the context of an industrial application:

Industry: Smart Manufacturing

Use Case: Robotic Assembly Line


  1. Ultra-Low Latency: Robots on the assembly line need to respond to commands with minimal delay to ensure precision and safety.
  2. Reliability: Any network interruption could result in costly errors or accidents, so the connection must be highly reliable.
  3. High Bandwidth: The robots generate and exchange a large amount of data for real-time monitoring and coordination.
  4. Security: Sensitive production data must be protected from cyber threats and unauthorized access.

In this scenario, 5G network slicing is employed to create a dedicated network slice optimized for the robotic assembly line:

5G Network Slice for Robotic Assembly Line:

  1. Ultra-Low Latency Slice: This slice is configured to provide ultra-low latency, ensuring that the commands sent from the control center to the robots have minimal delay. This is achieved by prioritizing the transmission of critical control signals.
  2. Reliability Assurance: The network slice is designed with redundancy and failover mechanisms to guarantee a highly reliable connection. If any part of the network experiences an issue, the system seamlessly switches to a backup path to prevent disruptions.
  3. High Bandwidth Slice: To accommodate the high data volume generated by the robots’ sensors and cameras, this network slice is allocated a significant portion of the available bandwidth. It ensures that data can flow smoothly for real-time monitoring and analysis.
  4. Security-Focused Slice: Given the sensitivity of production data, the network slice incorporates robust security measures. It employs encryption, access control, and intrusion detection to safeguard against cyber threats.

By creating this dedicated network slice, the smart manufacturing facility can ensure that its robotic assembly line operates at peak efficiency, with minimal latency, high reliability, and robust security. This level of customization and optimization is made possible through 5G network slicing.

In conclusion, 5G network slicing is a game-changer that allows network operators to tailor network services to meet the unique requirements of various industries and applications. The example of a smart manufacturing facility with a robotic assembly line demonstrates how 5G network slicing can be utilized to ensure optimal performance and reliability in a specific use case.

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