See a Celona 5G LAN in action and learn the basics
What Are Some 5G LAN Examples?
A 5G LAN is an enterprise-level, dedicated wireless LAN solution built to integrate with an organization’s existing network and to utilize the benefits of 5G, such as low latency and high bandwidth. These advanced capabilities have huge potential for the following industries:
- Industrial IoT
- Autonomous Vehicles
Before we dive into different 5G LAN examples, let’s briefly touch on what a 5G LAN is and how it’s a part of the private 5G movement.
What Exactly Is a 5G LAN?
A 5G LAN is a private cellular network solution for enterprises. 5G LAN architecture seamlessly integrates into an organization’s existing infrastructure and provides high-speed wireless access and deterministic performance for mission-critical applications.
While there are numerous benefits of a 5G LAN design, it’s important to see the end result of this architecture and how it helps enterprises achieve their goals.
5G LAN Examples
5G LANs are highly versatile and designed for unmatched reliability, security, and flexibility. While 5G LANs can be used across any enterprise environment, there are a few areas where their design works best.
Manufacturers are constantly looking for new ways to improve worker safety, increase production, and eliminate downtime.
For many manufacturers, wireless reliability is a challenge. Massive facilities with large metal obstacles tend to create dead zones and spotty service for Wi-Fi networks. Many industrial and manufacturing companies are turning to 5G LAN architecture to solve these challenges.
By using simple plug-and-play access points, administrators can easily cover their entire workspace with reliable blanket 5G coverage. Thanks to higher power levels and improved ODFM standards, 5G LANs cover a wider area and are more resilient to interference.
Manufacturers can gain new insights from old machines using IoT without having to replace hardware or stop production. IoT sensors help improve real-time analytics, accurately gauge performance, and help improve uptime through preventive maintenance.
Lastly, 5G LANs meet the low latency requirements to support cutting-edge augmented reality smart glasses. Maintenance staff armed with smart glasses can easily spot problems in complex environments through their heads-up display. This technology not only helps highlight issues but can also provide root cause analysis based on real-time data.
Manufacturers use 5G LANs to do the following:
- Implement and orchestrate Industrial IoT solutions
- Eliminate dead zones and gaps in their wireless networks
- Power cutting edge technology like smart glasses to perform preventative maintenance
- Improve performance and profitability by leveraging IoT-powered analytics
- Collect valuable performance data on older offline machines
Mining companies face unique safety and network challenges both above and below ground. Many work sites are in rural areas with little public infrastructure that can leave workers cut off from headquarters.
This creates delays and data blindspots that affect mining companies’ processes and profitability. From enhanced orebody scanning to underground collapse detection, 5G LANs are here to support the future of smart mining.
Companies can deploy portable, long-range antennas that provide service to the mining site, as well as a connection back to the main office. 5G LAN design makes this process simple and provides an intuitive back-end console for setup and management.
Through this network, mining companies can continuously share valuable data back to headquarters and provide directional service to underground shafts and crosscuts.
Smart mines use 5G LANs to do the following:
- Deploy private 5G networks in rural areas
- Establish a secure network connection between headquarters and the work site
- Provide directional service to underground shafts and tunnels
- Improve work safety with collapse detection and hazardous gas monitoring
- Power security cameras in remote job sites
- Leverage drones and ground-penetrating radar to help operators make better decisions
Oil, gas, chemical processing, and electric grid operations require the highest level of security and performance possible. With downtime impacting thousands of lives, industrial plants can’t rely on limited commercial solutions or limiting network models.
5G LAN architecture creates an ideal platform for Industrial IoT solutions. Administrators can easily integrate a 5G LAN layer into their existing SCADA systems while having centralized control over user access and network segmentation.
Many IIoT environments use their 5G LAN in conjunction with SCADA systems to support automated failover, process automation, and device orchestration. Administrators can easily provision devices via eSIM and rest easy knowing that communications are encrypted by default. Industrial operations use 5G LANs to do the following:
- Centrally manage IIoT operations
- Set automated failovers, alerts, and remediation for improved safety
- Leverage artificial intelligence to dynamically enforce service levels
- Easily integrate into SCADA systems
Autonomous Mobile Robots (AMR)
Enterprises use autonomous robotics to improve their logistics, remove humans from dangerous situations, and support warehouse operations. In order to process data in real time, AMRs require a continuous low-latency connection as they move toward their destination. 5G LANs can easily support the latency, coverage, and bandwidth requirements needed to manage a fleet of autonomous vehicles.
5G LAN services provide a simple network overlay that leverages a cloud-native operating system for quality of service, management, and traffic routing. 5G LANs use self-organizing networks to dynamically manage spectrums and provide continuous RF management for enterprise autonomous vehicles.
Enterprises with autonomous vehicles use 5G LANs to do the following:
- Dynamically manage cellular resources and spectrum availability
- Receive the latest navigation data and user instructions in near real time
- Automatically add QoS settings to new vehicles through application-aware services
- Orchestrate fleets of vehicles from a centralized location
Healthcare networks are typically large and complex, spanning thousands of square feet. These networks support a host of technologies, from wearable patient health monitors to clinical staff applications. Performance, security, and compliance are paramount for healthcare facilities.
Administrators use 5G LAN architecture to synchronize service levels across their wired and cellular networks while developing application-specific service levels for different healthcare services. For example, administrators can set maximum latency and minimum throughput requirements for their IoT devices, clinical apps, and security systems. Private 5G works alongside existing Wi-Fi networks, allowing healthcare providers to deploy a 5G LAN without impacting their current wireless services.
This granular control of cellular resources, combined with a simple deployment methodology, makes 5G LAN architecture an ideal solution for busy networks that require the highest standards in performance and reliability.
Healthcare networks use 5G LANs to do the following:
- Monitor healthcare IoT devices
- Provide service to life-saving equipment (CPAP machines, ventilators, dialysis machines, etc.)
- Power advanced technologies such as augmented reality training and remote robotic surgeries
- Reliably segment traffic to meet compliance and performance requirements
Getting Started with 5G LAN
Within a Celona 5G LAN, plug-and-play cellular wireless access points can be quickly deployed throughout the facility and managed centrally via cloud-based operations to ensure service-level objectives on critical applications, such as throughput and latency requirements, are consistently met. Celona’s industry-first approach enables enterprise organizations to build their own private 4G LTE and 5G networks as a seamless turnkey solution.
With a Celona 5G LAN, the out-of-the-box experience is drastically simplified, operations across a large network can be performed at scale, and onboarding can be done alongside existing wireless and IT infrastructure, without interrupting business operations.