But manufacturers often struggle to bring an innovative IoT idea out of the PoC (proof-of-concept) stage. Instead, they get stuck in “pilot purgatory.” Manufacturing-specific hurdles can make it difficult to scale IoT solutions and applications, creating islands of innovation. How can manufacturers overcome these hurdles? As manufacturing marches toward a new era of connectivity, how will intersecting trends and developments like 5G affect smart manufacturing’s trajectory?

Another challenge in scaling IoT solutions is balancing scalability and effectiveness. “IoT solution providers are prone to general, scalable, and flexible IoT solutions, which could solve some common problems facing manufacturing industries, such as visibility to realtime shop floor status for agile response, customer demand, and inventory management for dynamic production scheduling,” Yuan explains. “However, to solve specific and more value-added critical challenges that manufacturers are facing, such as a production quality and production line/equipment efficiency, which are key for manufacturers to stay in business and keep competitive, specific operation know-how for manufacturing processes or shop floor machines need to be embedded into the IoT solutions to make them useful and effective to address critical production issues.”

As a result, there is a lack of clarity to financial impact and the ROI of pilots,” McCarley says. “From a ‘people’ perspective, the technology-led proof-of-concept approach fails to plan adequately for necessary resources or to address the digital skills gap and does not improve the work environment. Operationally, there is a lack of focus on high value, repeatable use cases, and there is often a lack of change management and user adoption planning across the enterprise.”

When solving for maximum impact, manufacturers must resource and plan to simultaneously roll out use cases across multiple sites and continuously reduce the deployment time in subsequent sites. McCarley says a traditional, sequential deployment process that deployed across 10 lines or even one factory every 3-6 months, delivering a 50-year approach to the global enterprise digital transformation is a plan designed for failure. “To deploy digital capabilities across tens of plants simultaneously, manufacturers need a strong foundation to scale and accelerate the journey,” he explains. “A solid foundation to enable scale consists of the right team, governance structure, and digital backbone to quickly iterate and achieve high-value impact across the enterprise within 24-36 months. The right team necessitates identifying dedicated people and ecosystem partners.”

“Manufacturing environments are typically complex, involving different machines, processes, and existing software solutions,” George says. “These heterogeneous environments have created a lot of challenges in the past, ranging from missing interoperability between systems to data silos, in which data from one solution was trapped in databases and customers being unable to compare with other processes. The great news is that Microsoft and our partners have eliminated the technical challenges of scaling an IoT solution for manufacturing, leading with an open and interoperable approach. But of course, technology is only one aspect and, today, we often see organizational challenges that stand in the way and help (by) sharing best practices.”

The Future Is 5G

5G adoption in the manufacturing sector is still in the early stages, but more manufacturing companies are looking at how they can test 5G technology within their company today while planning for tomorrow. David Van Dorselaer, general manager of manufacturing and transportation at AT&T Business, says the key benefits of 5G for manufacturing include high bandwidth, ultra-fast speed, and lower latency.

“All these 5G features combined with other technologies, such as the Internet of Things, edge computing, machine learning, and cloud computing is where you really start to see the next level of innovation for the manufacturing industry,” Van Dorselaer says. “For example, manufacturing companies typically collect data from thousands of tools and equipment on the shop floor. Adding 5G+ in the mix enhances the scale and volume of the data being collected and improves the ability to process that data from many devices in near realtime. Manufacturers that can capture and crunch this data quickly will be able to produce actionable intelligence that can increase productivity and efficiency.”

Eventually, 5G in manufacturing will enable fully mobile, AR (augmented reality) training experiences where immersive and informative content is delivered just-in-time to help enhance learning, reduce errors, and improve information sharing. Van Dorselaer says, for example, a level-one technician onsite could have an engineer at headquarters guide him or her through the repair process remotely via 5G networks using context-sensitive 3D animations.