Lockheed Martin has leveraged augmented reality in manufacturing to reduce touch labor for the Orion spacecraft.
George Leopold, writing for EE Times, follows up his earlier reporting in regards to how Lockeed Martin is embracing augmented reality in manufacturing. Specifically, he explains how Scope AR’s content and the Microsoft HoloLens platform are working in tandem to drive major efficiencies in how engineers are preparing spacecrafts for critical missions.
In essence, Lockheed Martin is able to dramatically improve its manufacturing efforts through augmented reality by using ScopeAR’s virtual training manuals to assist in the creation of key spacecraft modules. For example, engineers are able to very quickly build modules such as fasteners, heat shields, and specialized meters. This has reduced the amount of labor required by engineers by more than a factor of 8!
In addition, the ability to put together and communicate information regarding workflow has been dramatically increased as a result of augmented reality in manufacturing. For example, the VR glasses can help a technician understand exactly where to fix a particular ship module, without having to interpret arcane and hard-to-read 2D and printed instructions. Rather, the correct location appears in the glasses — impossible to get wrong!
Lockheed Martin isn’t alone in its adoption of augmented reality in manufacturing. Other enterprises in the same ecosystem have recognized the potential benefits and ROI of streamlining tasks and enhancing training through the content provided by ScopeAR’s Worklink product. In fact, the scope of initiatives covered by AR continue to increase – PriceWaterhouseCooper reported that design and development may be the most popular use case, but it’s followed closely behind by workforce development, safety, and the operation of machinery. On some level, augmented reality in manufacturing can be seen as an extension of manufacturing strategy — sharing space in the same arsenal of tools such as robots and IoT, as well as three-dimensional printing.
Augmented Reality in Manufacturing and NASA is a Perfect Fit
The article concludes by unveiling some truly astounding stats with respect to what augmented reality in manufacturing has been able to produce for Lockheed Martin. There has been a fifty percent cut in the time needed to finish critical functions. A spokesperson for the enterprise says that important activities are able to be finished in half the time — and it’s all because AR, and the kind of content provided by ScopeAR, is not just science fiction; it’s being used by real people, and real companies, to drive critical business results and operations in the modern era.
Scott Montgomerie is the co-founder & CEO of Scope AR, the first augmented reality knowledge management company.
Earlier in his career, Scott started his first job writing code at 17, and his company got acquired by Intuit. After several years there, he set off to become a serial entrepreneur.
Since founding Scope AR in 2011, Scott was one of the first to get multi-billion-dollar companies to use augmented reality tools. He and his team have simplified adoption and deployment of AR across a number of industries, and today, Scope AR address challenges around problem resolution and guided work instruction experienced by Toyota, Lockheed Martin, Unilever, Prince Castle, and others.
The Conversation
In this conversation, Scott shares how he juggled going to college while working at the startup that was acquired by Intuit. He talks about his journey as an entrepreneur and shares some epiphanies he had along the way.
He goes on to share his early explorations with AR, as well as his experience taking Scope through Y Combinator, a highly selective startup accelerator.
He also discusses the significant impact Scope’s products are having on his customers, including the return on investment, and where the company is headed in the future.
The manufacturing industry has a long history of constant innovation. In this “man versus machine” industry, there has always been a precarious balance between innovation and having the right labor force to successfully drive these innovations. A new skills gap study by Deloitte predicts that 4.6 million new manufacturing jobs will be created in the U.S. between 2018 and 2028. More than half (2.4 million) of these new jobs are predicted to be unfilled.
“Why?” you may ask. As an aging workforce is soon walking out the
door, taking with them years of expert knowledge, the manufacturing
industry is now facing tremendous pressure to do more with less. Costs
of equipment, product assembly, and workforce training are continuing to
rise. At the same time, technology is driving an even greater need for a
skilled labor force as the complexity of machines and manufacturing
equipment is also increasing. These drivers are creating new challenges
for manufacturing companies to identify innovative ways to save time,
cut costs and ensure their more generalist workforce has the knowledge
they need to successfully complete their jobs.
Augmented Reality (AR) is proving to be one of the most impactful
technologies influencing the manufacturing industry, helping many
enterprises in the space overcome current obstacles. Workers can now
connect in real-time to get the expert help they need, reducing errors
and equipment downtime. Knowledge experts even have the ability to share
predefined AR-driven work instructions for common problems in the
field. AR technologies can also jump start training processes by
circumventing the need for large volumes of paperwork instructions or
user manuals. Workers can access intuitive AR content on-demand, which
is overlaid on top of a piece of equipment or machine in the real world,
dramatically reducing the time it takes to reach a certain competency
level or even learning a new procedure on the fly.
A perfect example of how AR is transforming the manufacturing world is with Lockheed Martin, an American global aerospace company, and their current project of building the Orion spaceship. Historically, aerospace companies have been dependent on paper manuals (sometimes thousands of pages in length) to access detailed manufacturing instructions. As you can imagine, building a spacecraft takes incredible precision—it’s a “measure twice, cut once” scenario magnified to the extreme. Using AR, Lockheed Martin’s Space division technicians can now see digital information and assembly instructions overlaid onto components of the spacecraft. The results have been dramatic. They have seen a 35-50 percent reduction in overall technician time, a 90-99 percent reduction in the time it takes technicians to interpret drawings and text instructions and an 85 percent reduction in overall time for training.
Unilever, a British-Dutch transnational consumer goods company, is
another great use case where AR is driving dramatic ROI. They are using
real-time remote assistance AR technologies to connect workers on the
factory line with experts located in a different part of their
campus. This enables manufacturing factory line workers to solve
problems quickly and dramatically reduce downtown of essential
equipment. They have experienced a 50 percent reduction in overall
downtime and an impressive 1,700+ percent ROI relative to their cost of
using the AR solution.
A final example is with Prince Castle, a manufacturer of steaming,
toasting and smallwares technology. Prince Castle supplies the leading,
global fast food chain with food preparation and other kitchen equipment
such as toasters. When their highly specialized equipment becomes
inoperable, Prince Castle contracts with general contractors in local
markets to come onsite and assess the problem. Using an AR-based live
video calling solution, these general contractors can quickly and
accurately diagnose the problem and get immediate remote expert advice
to fix the equipment. As a result of adopting AR solutions, Prince
Castle has experienced an amazing 100 percent success rate in diagnosing
the problem on the first visit, a reduction of 50 percent of the
service trips needed to properly repair a piece of equipment and a 50-80
percent reduction in labor spend.
With a dwindling labor force coupled with an increased need for
highly trained and specialized workers, the importance of technologies
like AR will play an increasingly critical role in the manufacturing
industry. Early adopters have already realized they must transform
business processes to improve worker efficiency, reduce equipment
downtime and maintenance costs, and more accurately diagnose and resolve
support and repair issues—and that AR can be the answer to these
challenges. More and more manufacturers will realize the benefits AR can
deliver and its impact will become even more pervasive in the years
ahead.
Scott Montgomerie is the co-founder and CEO of Scope AR.
Lockheed Martin’s space division has partnered with Scope AR to support the manufacturing of spacecraft, including NASA’s Orion.
On September 14, Alice Bonasio, Tech Trends’ Editor in Chief posted
an article to TechTrends exploring Lockheed Martin’s expanding use of
Scope AR’s WorkLink, particularly the work done on their Orion project
using Scope AR’s WorkLink. Some highlights from the article:
“In a complex field where errors simply cannot be made, Scope AR’s
WorkLink Augmented Reality platform has tremendously helped our space
division build high quality spacecraft by reducing the time it takes to
interpret work instructions by more than 95 percent, as well as reducing
training time and errors significantly,” says Shelley Peterson,
emerging technologies lead, Lockheed Martin. “The ability to easily use
the product across platforms means that anyone on our team, including
our interns, can take advantage of AR to build and use manufacturing
instructions quickly and accurately.”
Over the course of their AR deployment, the team achieved an
astonishing 95% reduction in the time it takes technicians to interpret
drawings and text instructions and 85% reduction in overall time for
training.
On August 1, in the Wall Street Journal, Sara Castellanos posted an article exploring Lockheed Martin’s use of augmented reality, particularly the work done on their Orion project using Scope AR’s WorkLink. Some highlights from the article:
Lockheed Martin Corp.’s space division is using augmented reality
headsets and software to speed up the time it takes for engineers to
learn about and conduct manufacturing processes on spacecraft, said
Yvonne Hodge, the division’s vice president and chief information
officer.
“This is a really exciting capability that can really accelerate us and make us more competitive,” she said. Before, for example, technicians used paper instructions or 3-D models on a computer in certain manufacturing processes of Orion. Now, instead of having to look through binders of data or content on the computer across the room, they can wear an AR device such as HoloLens, which overlays instructions for drilling or applying torque to specific parts of the spacecraft, said Shelley Peterson, augmented reality systems engineer at Lockheed Martin.
The time it takes for a technician to “ramp up,” or to understand the
drilling processes, has been reduced from eight hours to about 45
minutes using augmented reality headsets, she said. It recently took
about 2 weeks to conduct a manufacturing process which involved drilling
and inserting panels into the Orion spacecraft, Ms. Peterson said. That
process had taken about six weeks in the past, she said.
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