Improving the effectiveness of human-machine interfaces (HMIs) by developing a standardized approach to the design of operator interface screens and the content displayed on packaging lines, plus increased access to diagnostic information, has become a priority for a leading packaging industry technology group.
OMAC, the Organization for Machine Automation and Control, has been a key player in the past in championing new technology, including the emergence of standards for servo-driven machines in packaging. And now with the corporate electricity and automation group at Nestlé providing a catalyst for getting a global technology standard put forward, OMAC has started initiatives for HMI standardization, improvements in on-screen machine diagnostics, and standardized packaging user requirements. All these areas have defied standardization efforts in the past, and they could all contribute to simplified and more efficient packaging operations.
By linking ergonomics, navigation, and design, new HMI systems are able to display complex processes in a way that is easy for the user to understand and manage. The new OMAC standard goes one step further by defining a common look and feel between operator panels in packaging plants.
"We believe that standardization is imperative to improving our overall equipment effectiveness," Dr. Bryan Griffen, global automation manager at Nestlé and chairman of the OMAC Packaging Workgroup (OPW), told us. "We are fully committed to the PackML strategy, and we continue to support and develop this strategy through active participation in the OMAC Packaging Workgroup.
"We are developing complimentary tools and specification for application as part of our PackML strategy," Griffen said. "These include HMI specifications, communications standards, and safety system integration -- all of which are focused on improving the operability and maintainability of our packaging systems."
HMI common look and feel
At an automation conference, Griffen showed 13 different HMI screens on a single packaging line with absolutely no common look or feel, including applications for inspection, weight checks, coding, and packing and transport functions. More than 200,000 HMIs are in use in Nestlé factories, and there are more than 70,000 people involved in packaging operations. But because the screens are all different, specific training is required for each type of equipment, costing both time and money.
To address this problem, the Nestlé packaging and automation groups have developed a standard HMI solution. Machine-specific requirements are displayed in the center of each screen, but a common template has been produced for a top menu bar, command buttons, navigation, and active alarms and event messaging. The goals of the template are to be user friendly, to allow operators to become more mobile across machines and lines, and to make more diagnostic information accessible from the equipment.
The OPW committees are focusing both on base technology and its potential benefit for applications. "We have tried to be practical and balance the focus on technical details around the standard with the benefits the standard would provide for end users, machine builders, and system integrators," said Thomas Doney, senior research engineer at the Nestlé Product Technology Center and a member of the OPW.
We can expect more progress on this topic in 2013. Even though the concept of standardizing machine user interfaces seems straightforward and easy, it really is an area that defies standardization. Especially in a packaging line, individual cells and operations have distinctly different needs. So it will be interesting to keep an eye on the work of the OMAC Packaging Workgroup this year.
The overlap between these two trends -- baby boomer retirement and lower-skilled operators taking over plant functions -- may be opportunisitic. If the baby boomers are retiring, it's a good time to switch from an engineer to an operator.
Al, that was my understanding, that better trained, and costlier, engineers were being replaced gradually by less technical operators, regardless of age.
Ann, I think the trend here is younger, less technically educated operators rather than engineers being replaced by younger engineers. With the level of automation in some plants, even fewer operators are required. This movement is toward integrating training resources (ready access to documentation, training videos and more) from the HMI itself. That enables more self-teaching, and innovative use of machine animations which can "show" how to perform a maintenance task, for example, versus reading a series of steps. This type of animation using 3D models is still expensive to develop but doesn't seem beyond reach in the not-too-distant future. Some automation vendors are moving in this direction but getting photo-realistics 3D animation is still in the future. Great to see how things are moving ahead in this area.
The new thing here is the standardization of HMIs screens to a common look and feel. OEM machinery builders, apart from the packaging industry, might resist this just because the operator interface is a clear part of the value added of the machine. It will be interesting to see how widely this is adopted, especially adding the functionality of changing system parameters directly from the HMI (versus using the automation vendor's computer tools). Overall, the operator interface is going through a significant transformation with lower cost, much more capable hardware and now also touchscreens joining in. Should be interesting to see how it develops toward becoming more of a "Dashboard" for machines.
Yes, Ann, I was under the impression the shift from baby boomers to younger workers is still within the community of engineering. But maybe not. Maybe they're replacing the boomer engineers with non-engineers. I would make an interesting article.
Interesting, Rob. I hadn't connected the dots between the baby boomer retiring trend and younger workers with the cost-cutting trend of using less expensive operators instead of engineers on the factory floor. I'm not sure they're the same thing. First, the engineer vs operator trend is usually described as being due to improved HMI, as we were originally discussing. Plus, isn't the first trend occurring mostly within engineering?
I guess that shouldn't be surprising, Ann. This could be part of the trend of replacing the baby-boomer engineers at plants. As the boomers retire, I hear they are being replaced by younger workers who have less automation and control experience, but more computer experience, which is mostly appropriate given the changing nature of automation. And of course they would be lower-cost workers simply because of their youth and inexperience.
The decision-making can shift to lower-cost operators because they're making fewer decisions--and more low-level ones--as more functions get automated. This is by no means the case everywhere, but it's yet another cost-cutting trend. That's what I've heard, anyway.
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