• Private 5G-powered digital twin

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  • The challenge

    Creating accurate and responsive virtual models of physical objects and devices

Determining what modifications will optimize physical products and systems can be time consuming and costly. Current virtual modeling processes may lack near real-time data inputs needed for generating accurate, ongoing and responsive projections.

Efforts to create more sophisticated models, like digital twins, of real products and systems may need near real-time data and could require costly infrastructure, networks and IoT sensors. 

  • Transform predictive maintenance.

    Digital twins could transform how businesses optimize and perform predictive maintenance of products, machinery and systems.

  • Private 5G Network opportunities

    Gain powerful insights from a private 5G-powered digital twin

Private 5G has the latency and throughput to capture near real-time IoT data and support digital twins.

Private 5G could allow you to experiment, test and optimize the digital twin before implementing on the physical operation.

A private 5G-enabled digital twin could handle the massive volume of data needed for an accurate analysis in manufacturing operations.

Private 5G could also create increased flexibility with IoT deployment and configuration for a digital twin refinement.

How it works

    • What a digital twin could do for an aircraft engine design

      • An engineer sits at a computer monitoring and testing an aircraft engine’s digital twin.
      • The near real-time updates inform the engineer of the engine’s performance, issues and anomalies.

    • What a digital twin could do for an aircraft engine design

      • The physical engine is located in a manufacturing facility.
      • The engine has sensors in key locations that could send data in near real time utiliz ing multi-access edge computing (MEC). This would be via a Private 5G Network , enabling updates to the digital twin.

    • What a digital twin could do for an aircraft engine design

      • The engineer could simulate the engine’s life cycle and material stresses in various real-world environments and conditions virtually, with rapid testing and optimization.
      • A Private 5G Network and MEC can deliver low latency and high bandwidth to capture data in near real-time. This helps with performance modeling and optimiz ations prior to physical implementation.

Built right for business

Private 5G is a secure, scalable, wireless network that is totally customizable to your premises and operational requirements.

  • Infinity symbol

    Seamless

    Enable mobility by extending your network’s operational range across facilities.
  • gear

    Reliable

    Deliver consistent, dedicated connectivity and performance, with the option of authorized remote access.
  • Security icon

    Secure

    Benefit from built-in LTE and 5G security, with management and monitoring against threats.
  • flexibility two arrows

    Agile

    Find scalable solutions for virtually any facility size, and Quality of Service (QoS) levels. 
  • Thumbs up

    Easy

    Be empowered to focus on running your business, not your network. 
  • Black star

    Powerful

    Get high-bandwidth, low-latency LTE and 5G performance for the most demanding applications.
  • Phone with engine drawing.

    • Future use case not currently available.
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