The company IOT ANALYTICS has published the results of a study on more than 100 projects involving the implementation of 5G networks and identified the main trends in the use of fifth-generation networks. The primary advantage of 5G lies in its high data transfer speeds and low signal latency, which opens up opportunities for remote equipment control, instant data collection from remote objects, and rapid response. Private 5G networks also offer reduced susceptibility to congestion and guaranteed data security.
We present to you five key areas of private 5G usage based on the number of implemented projects:
- Remote Management of Assets and Equipment
- Object or Area Coverage
- Logistics Automation Using Autonomous Vehicles
- Video Surveillance
- Support for Augmented Reality Applications
Private 5G networks provide real-time communication between operators and machines. Low latency and high bandwidth ensure precise operation control. For example, 5G facilitates the integration of haptic control and video streaming for remote monitoring of medical equipment.
Project example: The Swedish company Epiroc uses 5G to create remote control systems for machines and to collect performance data. Drilling rigs and load-haul-dump machines equipped with sensors transmit data via the 5G network, allowing dispatchers to track their location on a digital map. This significantly enhances safety and efficiency in the mining industry.
Private 5G networks provide organizations with dedicated and efficient connectivity at their facilities. High data transfer speeds and ultra-low latency make such networks ideal for covering campuses, factories, and plants.
Project example: In Germany, Lufthansa Technik began using video conferencing for inspecting engine parts, which became critically important due to travel restrictions resulting from the COVID-19 pandemic. This solution allowed for live video inspections to be streamed to the partners who could not visit the factory.
Autonomous robots and vehicles rely on private 5G networks for safe and reliable connectivity. The network ensures continuous real-time data transmission, which is crucial for preventing collisions and coordinating actions among multiple robots.
Project example: In Brazil, Nestlé installed a private 5G network at its facilities to manage automated guided vehicles.
Private 5G networks connect camera networks to ensure operational security. Operation monitoring requires low signal latency and reliable connectivity that public networks cannot provide.
Project example: The Port of Barcelona utilizes over 400 surveillance cameras for security purposes. The collection and transmission of video data to the server are facilitated by the 5G network, ensuring high-quality streaming.
5G provides the necessary data exchange speed, which is critical for the operation of augmented reality applications.
Project example: In France, ArcelorMittal deployed a private 5G network at its steel plant in Dunkirk to ensure data exchange between augmented reality devices and the server.
Private 5G networks open new horizons for businesses by providing high speed, reliability, and security. Their use across various sectors, from remote management to logistics automation, demonstrates the enormous potential of this technology.
Optimal equipment utilization with maximum benefit is ensured by telecommunications software. An example of the development of such systems can be found at the link.