Private 5G Network facts

Check the below facts about 5G Private Network.

Admin note: this post was updated with image below.
5G Private Networks

LinkedIn: Pawan Kumar Choudhary on LinkedIn: #5g #lte #openran #private5g #privatenetwork #rftechpoint

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Nice points shared :blush:
Just wanted to know why there is so much hype around the private 5g eventhough the private 2g/3g/4g could have been possible… but i am not sure if there was a similar hype for those technologies as well??

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Thanks for liking points.

5G private network has gained a lot of attention due to rapid increase in digitization, MNOs and customer focus on monetizing data by using different business use case and rise of verticals like industry 4.0.

And big push to this is the intro of open RAN, making it multiple vendor ground.

Finally we can say the main driver for private 5g network are below points.

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5G private networks are dedicated, standalone communication networks built specifically for an organization or location, providing enhanced connectivity, security, and control. They leverage 5G technology to deliver high-speed, low-latency connections tailored to specific use cases. :globe_with_meridians::rocket:

Here are some key aspects of 5G private networks explained :

  1. :factory: Customized Coverage: 5G private networks are designed to provide coverage within a specific area, such as a factory, campus, or stadium. This allows organizations to tailor the network to their needs, ensuring optimal connectivity and performance.

    For example, a manufacturing plant :factory: can have a private network to connect robots :robot:, sensors :thermometer:, and other equipment, ensuring seamless communication and real-time data exchange.

  2. :zap: Low Latency: 5G private networks offer extremely low latency, which enables real-time applications and reduces response times.

    For instance, in a smart city :cityscape:, traffic lights :vertical_traffic_light: can be controlled in real-time using data from sensors and cameras :camera:, helping to optimize traffic flow and reduce congestion.

  3. :signal_strength: High Capacity: 5G private networks can handle a large number of connected devices, making them ideal for environments with numerous IoT devices, sensors, and applications. In a smart hospital :hospital:,
    for example, a private network can support a wide range of connected devices, such as patient monitors :heartbeat:, imaging equipment :framed_picture:, and telemedicine robots :robot:.

  4. :lock: Enhanced Security: Private networks offer increased security compared to public networks, as they are isolated and can be configured with strict access controls. In a research facility :microscope:, sensitive data can be securely transmitted over the private network, reducing the risk of unauthorized access or data breaches.

  5. :control_knobs: Control and Flexibility: Organizations that deploy private networks have greater control over network features, configurations, and resource allocation. In a large event venue :stadium:, the private network can be configured to prioritize high-bandwidth applications, such as live video streaming :video_camera:, ensuring a seamless experience for attendees.

In summary, 5G private networks provide organizations with a customized, secure, and high-performance communication infrastructure that can support a wide range of applications and use cases. By leveraging the advantages of 5G technology, private networks enable businesses and organizations to innovate and improve their operations. :globe_with_meridians::rocket::lock:

5G Private Networks

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