As 5G transforms manufacturing connectivity, here are four ways packaging production operations can benefit.
in automate the show At the end of May 2023, I will be in Detroit, Michigan. Jan Diekmann’s Keynote on how 5G platforms enable next-generation lean manufacturing. Diekmann is Ericsson’s technical account manager and is focused on partnering with the manufacturing technology ecosystem to develop the next generation of digital manufacturing.
His keynote address will highlight the immense potential of 5G as an enabler for lean manufacturing processes that can truly leverage technologies such as cloud, automation, digital twins, artificial intelligence (AI), augmented reality (AR), and the industrial internet. Emphasized possibilities. Objects of Things (IIoT).
Compared to 4G, 5G networks offer lower latency, enhanced capacity, and increased bandwidth. So what does this mean for manufacturers? Here are the key takeaways from Diekman’s presentation.
1. 5G will be a catalyst for lean manufacturing.
5G will unlock new possibilities and revolutionize traditional manufacturing processes. Its ability to process large amounts of data with low latency gives manufacturers visibility into their systems and operations from the control tower.
Factories have islands of information bridged together by 5G, allowing companies to eliminate waste, reduce costs, improve quality, and increase efficiency.
5G will also enable manufacturers to be more reliable and customer-focused, giving them the flexibility to move from “make-to-stock” to “make-to-order.”
2. 5G helps you operate with advanced technology.
5G is about much more than connectivity. This will enable companies to deploy new advanced technologies such as advanced robotics (such as automated guided vehicles and autonomous mobile robots), cloud, vision systems, AR, AI, digital twins, and IIoT.
These technologies can help automate processes, facilitate remote monitoring, and facilitate virtual training. Manufacturers can also deploy intelligent infrastructure that uses machine learning, prediction, analytics, and self-correction to increase operational efficiency and drive continuous improvement.
3. 5G increases sustainability, flexibility and cost savings.
In his keynote address, Diekmann highlighted how 5G will enable rapid production reconfiguration, layout changes, and changes on the factory floor. As a result, manufacturers reduce lead times and increase agility.
The flexibility that 5G brings to manufacturers will allow them to quickly respond to market demands and optimize their production lines accordingly.
5G’s fast, reliable connectivity creates an ecosystem where machines, systems, and workers can interact seamlessly. Real-time communication supports remote assistance, training, and knowledge sharing, increasing employee productivity, reducing errors, and promoting continuous learning.
5G will also reduce costs by streamlining operations, reducing waste, and supporting lean principles throughout the manufacturing process.
4. 5G will enable new kinds of factories.
Manufacturers leveraging 5G’s massive data processing power and low latency can explore innovative applications in supply chain management, logistics, and customer engagement.
Enhanced communication and data sharing allows manufacturers to better manage inventory and reduce lead times and overall costs.
Ericsson uses AR for troubleshooting Training before you find the most effective solution to implement can help you save money, time, and materials.
5G also improves worker safety with real-time monitoring and connected wearables that identify potential hazards.
Manufacturers that embrace 5G and integrate it into their operations will revolutionize their industry and be at the forefront of innovation and success.
