Blog July 14, 2020
Mechanical Engineers Anticipate Major Benefits from IoT
New report by Arm and IMechE reveals strong belief in IoT as key to industry’s digital transformation, particularly in fault prediction and design optimization
By Charlene Marini, VP and GM of devices, IoT Platform, Arm
What do the world’s mechanical engineers think
about the Internet of Things (IoT)? How is it enhancing their abilities now,
and what might it do for them in the future?
To find out, we partnered with the Institute of Mechanical Engineers (IMechE) in a survey of over 1,800 mechanical engineers across the world. The results, published as I write, show that the IoT is having a significant, positive impact on the working lives of engineers, with investment set to accelerate.
Stepping back for a moment, one of the last
cost-saving frontiers in manufacturing is maintenance. Consider the challenges:
An in-field device fails. Today, thanks to the connectivity of systems to
various wireless networks and data analytics, maintenance managers can be alerted
to any device abnormality. But from there, the process to fix or replace the
device is manual, with service technicians sent to remote locations to replace
It’s estimated that maintenance accounts
percent of total manufacturing costs. Not only does poorly maintained
equipment lead to a greater likelihood of failures, but it can also reduce
utilization rates, delay production schedules, and, in safety-critical
situations, imperil lives.
Fortunately, more companies are realizing that embracing the IoT is key to their companies’ digital transformation. Companies are leveraging IoT to glean insights from new data sources to transform their businesses and their customers’ experiences. One strong undercurrent of this trend is that they’re keen to use that data to optimize manufacturing, with operational efficiencies through predictive maintenance but also through future-proofing with software update capabilities.
Mechanical engineers rapidly embracing IoT
The Arm and IMechE Internet of Things in 2020 report covers:
- How quickly is the Internet of Things being adopted in 2020?
- What are engineers embracing, and what are they struggling with?
- Which barriers must be overcome before all industrial sectors can take advantage of the IoT revolution?
The Internet of Things in 2020 report, led by the IMechE and sponsored by Arm, reveals just how rapidly companies are embracing IoT technologies and what their initial objectives are as part of their ongoing IoT journeys.
The 1,800 mechanical engineers surveyed as part of the study found that three out of four respondents indicated that advanced data capture is significant for their business. Thirty-seven percent of the global survey participants plan significant capital investment into IoT projects in the next year.
One respondent said of an IoT solution, “It
can control the production of different materials needed at different times to
make the finished product. It can inform when to order raw materials to avoid
deficiency and how much to stock.”
IoT’s ability to monitor and optimize systems performance is where many respondents find the highest value – in fact, one in three thinks this area is crucial. Predictive maintenance and the ability to inform operational decision-making (both 14 percent) are also high on the list of value propositions.
Interest is very high among automotive
engineers, where nearly half indicated predictive maintenance will extend the
life of vehicles, improve safety and lower ownership costs. An example of how
this plays out in the real world is Pioneer’s
use of IoT and AI technologies to deliver predictive monitoring and modeling
to make the roads safer.
Challenges and risks in adoption of IoT
Amid this broad interest in adopting IoT
technologies, there is also hesitation as engineers evaluate the challenges and
risks they might face in the early stages of their IoT journeys. For example,
37 percent see understanding how to roll out IoT devices as the biggest
technical barrier to adoption. One in four respondents believe security is the
These responses are perhaps understandable in the early stages of IoT’s evolution when countless point solutions vie for engineers’ attention. But companies such as Arm firmly believe in the phrase “composable IoT solutions” rather than just IoT products. This approach—delivering everything from hardware to software tools and IoT connectivity and device management enablement platforms and data solutions, with end to end security and through collaboration with partners across the solution value chain—is the only way to smooth the IoT journey and minimize the complexity that engineers can face.
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Brian Fuller and Jack Melling