The importance and benefits of an effective HMI for industrial automation applications.
Whether you’re familiar with a human-machine interface (HMI) or not, there are plenty of reasons why a good one has become a critical differentiator in the industrial automation world. Dreaming up a competitive platform simply isn’t good enough nowadays – it needs to put the user first, before any specific features or elegant visual elements.
Let’s look more closely at what exactly a human-machine interface is and why it’s essential in many modern-day industrial applications.
An HMI is a state-of-the-art solution – either software, hardware, or a marriage of the two – that allows for seamless communication between users and connected equipment. This happens by way of making critical data elements, controls, and feedback easier to transmit, translate, and track. While “knowledge is power” is a term that might make one cringe slightly, it perfectly sums up what an industrial HMI is capable of: more efficient production through greater context and user safety.
There are many examples. It could be the oven controls in a large-scale commercial kitchen or the process feedback for a complex manufacturing line. Regardless of the use case, there are significant differences between the design and development of industrial HMIs versus consumer devices or even smart office products.
An HMI-enabled device typically boasts a clean-cut, no-nonsense user interface (UI). This, combined with reliable performance, user safety, and seamless connectivity to other industrial machinery, translates directly to an ideal user experience (UX). The right software, hardware, and optimal accessibility enable for a more effective, informed way of working, whether inputting commands to high-powered equipment via a multi-touch interface or sending crucial information to a production line.
The interactivity between the user, hardware, and software needs to flow in a way conducive to a reduced margin of error, less stress for users, and utmost confidence in the technologies utilized. That last point is important because if workers don’t trust the HMI they’re using, they’ll find ways to work around it, potentially causing loss of productivity, violation of company protocols, or even safety issues. Therefore, good design – one that puts the user first – should be a top priority to embedded systems developers and industrial clients alike.
Let’s walk through a list of practices and benefits directly associated with a well-thought-out HMI implementation that considers UX equal to software integration and optimization:
There are three commonly implemented human machine interface techniques for industrial automation use cases. The first, known as a pushbutton replacer, centralizes multiple input functions into one easily accessible location, usually a menu or widget on a touchscreen. The second, a data handler, provides a continuous organized stream of data for use in specific applications (it’s also widely used in various forms of reporting). Lastly, there’s the overseer HMI device which, as the term implies, is more complex in nature (but hopefully not the case in terms of execution and the subsequent user interface and experience). This third technique helps to manage and organize an umbrella of connected systems.
If an embedded developer is creative and diligent enough with respect to client operations and needs, there’s almost no limit on what an HMI device can be used for in industrial automation applications.
Here are just some of the many potential implementations:
This is the tip of the iceberg when it comes to effective industrial user experience and developers are just getting started when it comes to emerging technologies, IoT connectivity, and hardware capabilities. Expect to see continued innovation, optimization, and client adaptation as the months and years go by.
Explore our very own development solutions for industrial automation HMIs today: