As one of the leading rugged computer providers, Getac offers extensive rugged computing product lines and serves a wide range of vertical markets.
Defense
Mission-critical COTS computing that delivers high powered processing and reliability in operational environments.
Public Safety
Ambulance, Fire & Rescue and Policing applications
Utilities
Smart Meter Reading and Installation, On-site Safety, Utility Asset Management, Workforce Management for Utilities, Mobile GIS, Surveying and Mapping
Transportation & Logistics
Railroad Management, Airport Management, Port Management, Long-haul Delivery Fleet Management, Warehouse Materials Handling
Industrial Manufacturing
Industrial Programming and Robotic Control, Facility management, Compliance and Inspections, Workforce Management, Inventory and Warehouse Management, Factory Automation and Plant Monitoring, EAM and CMMS Solutions.
Automotive
Optimized Rugged Mobile Solutions to drive a smarter approach throughout the automotive value-chain.
Natural Resources
Mining, Forestry and Construction applications
Oil & Gas
Remote Support, Asset Management, Field Data Analysis, Workplace Safety
For decades, the manufacturing industry has struggled with a range of operational challenges, from crippling downtime of manufacturing equipment, to sub-optimal workflows and shaky manual inspection processes. When issues inevitably arise, they cost time, money and resources to resolve, often at the expense of the bottom line.
But Industry 4.0 and its newer iteration, Industry 5.0, have revolutionized the sector, using data to digitally transform almost every industrial production process for the better.
Manufacturers can now use connected sensors to drive predictive maintenance models that decrease asset downtime and reduce costs. Robotics and automation form a core pillar of Industry 5.0, integrating collaborative and industrial robots into the mix. Additive manufacturing, also known as 3D printing, is another key technology, enabling the production of complex parts quickly and precisely, and allowing on-demand production of spare parts in industries such as aerospace, automotive, and healthcare.
In short, technology is reshaping manufacturing at an ever-increasing pace, and we’re only just scratching the surface of what’s possible. For example, recent advances in artificial intelligence and machine learning are already being used to fine-tune operations to a level far beyond what was previously thought possible, from vendors to the manufacturing floor, and even end-of-life.
However, when data drives decisions, every authorized employee in a manufacturing facility needs access to relevant and contextual information—in the right place and at the right time. To better understand how manufacturing companies around the globe are using rugged devices as access points for data, Getac recently sponsored an IDC survey of 990 IT decision makers.
Rugged devices accelerate digital transformation in manufacturing by enabling real-time data access, enhancing operational efficiency, and ensuring durability in harsh environments.
In the industrial manufacturing sector, IDC found two thirds of those surveyed are still considering how much of their IT budget to devote to rugged devices, but 55% expect to increase spending on rugged devices over the next 12-18 months. This significant investment shows a growing understanding of the benefits rugged devices have over convectional consumer-grade devices. Accessing key data throughout production plants and manufacturing facilities requires devices that can withstand challenging work environments and satisfy a whole range of other parameters. The data needs to come to the worker, not the other way around.
Rugged devices are the vehicle for data-driven digital transformation in manufacturing. All the sensor-gathered data from industrial assets amounts to nothing if the information can’t be accessed in real-time and swiftly acted upon. This is what rugged devices enable production workers to do.
Rugged laptops and tablets boost operational efficiency for the manufacturing industry in a variety of ways:
With high ingress protection (IP) ratings, MIL-STD certifications, and ability to withstand accidental knocks, bumps and liquid spillages, rugged devices can withstand the harsh conditions that are routine in the sector. This has quickly made them an essential part of the manufacturing tech stack.
Rugged devices can reduce unplanned downtime and accidents resulting from equipment failure by giving workers real-time access to data from predictive analytic models. Workers can also use rugged devices to read and update maintenance records and check on crucial steps in production workflows.
Rugged devices that facilitate advanced manufacturing technologies, such as mixed reality and augmented reality, enable employees to complete training more easily by combining real-world situations with digital training modules. These technologies also enable less experienced workers to take on more complex tasks and troubleshoot problems by remotely consulting with technical experts in real-time as needed.
Fully rugged tablets like the Getac F110 feature 13th generation Intel® Core™ CPU, with Intel® UHD Graphics runs the latest Edge AI and AR/VR applications smoothly, delivering power and rugged performance in challenging environments.
One significant advantage of rugged devices is enabling computer numerical control, which is essential for achieving highly automated and precise manufacturing processes. This technology allows for the remote control of machine tools such as 3D printers and laser cutting machines, enhancing efficiency and accuracy in production.
Tied in with efficiency gains, rugged devices help the manufacturing sector optimize processes and shave off excess waste, a key pillar of sustainability initiatives. Knowing when to replace components thanks to predictive analytics helps companies keep assets running efficiently. Digital twins, which help sustainability initiatives, can also deliver real-time optimization suggestions to workers through rugged devices on the manufacturing floor.
While rugged devices can have a higher initial capital investment than consumer-grade equivalents, a growing number of organizations are recognizing that overall total cost of ownership (TCO) is significantly lower over the product lifecycle. In fact, 35% of respondents in IDC’s survey expect a TCO reduction of over 20% once rugged devices are implemented.
Furthermore, those who have already put rugged devices to work noted significant reductions in equipment failure and replacement costs, as well as improvements in worker productivity and remote access to data systems.
The impressive range of advantages that rugged devices offer in manufacturing make consideration of TCO a must when deciding whether to invest in them. Data is already key to manufacturing efficiency and will only become more important over time. The long-term savings from being able to harness automation and advanced technologies for cutting costs and improving business operations typically far outweigh the costs of initial investment.
As with the addition of any new hardware in a tech stack, companies need to conduct due diligence before integrating rugged devices into their everyday processes. This should be viewed in the context of the Industrial Internet of Things (IoT), where data freely flows between employees, machines, equipment and production lines. Key factors to consider include:
Given that real-time data is the key to Industry 5.0, it needs to flow seamlessly between the various software systems that the company uses. IDC’s survey found that rugged devices in industrial manufacturing will most likely be integrated with manufacturing execution systems (MES), supply chain management systems, and warehouse management systems (WMS). To do this effectively, devices need to have the necessary standards for integration and interoperability so they can plug and play into existing tech stacks.
The rugged devices that companies pick today need to account for future use and integration of technologies coming down the line. Maintenance and support systems for the stack will likely change depending on needs as well.
The key value proposition of rugged devices is that they improve business operations through data driven decisions. So, companies need to evaluate existing workflows and ensure rugged devices can be used to effectively eliminate bottlenecks and improve processes before making any large investments in them.
Any new asset introduced brings change, which can be difficult for employees to adapt to. But the right training can make adoption easier. Team members are often much quicker to embrace new technology when they realize that it can make their day-to-day duties both quicker and easier to perform.
While rugged devices are purpose built to thrive in challenging work environments, it is still prudent to evaluate the conditions under which they will operate and ensure they have the necessary certifications before investing in them. Many rugged devices also offer optional protection against environmental hazards like salt fog or are available in intrinsically safe variants for operation in potentially explosive environments.
To select the right rugged solution vendor, assess their industry experience, product durability, customization options, and commitment to post-sale support.
With robust maintenance protocols in place, rugged devices can last a long time and be a primary asset for any manufacturing enterprise. So, look for vendors who can form strong business partnerships for the long run, who understand the changing needs of enterprises, and who excel in customer relationship management.
OEMs also need to consider a vendor’s prior expertise in the specific sector, because a lift-and-replace approach from one sector to another rarely translates well.
Pick a rugged device vendor with a diverse product portfolio that meets various needs, both on the floor and in the field. The devices need to offer seamless connectivity and be 4G/5G-compatible, while processor speed, memory, battery life and MIL-STD/IP rating all play an important role in determining the best device fit as well.
Several OEMs in the industrial manufacturing sector are already realizing the operational efficiencies that rugged devices deliver.
Aerospace titan Boeing uses rugged devices for quality control, inventory management, and a host of other tasks. Aircraft manufacturing environments are extremely dusty, and devices must withstand regular exposure to heat and vibration as well.
A similar landscape plays out at General Motors, which uses rugged devices to troubleshoot disruptions in production and assembly. Employees access in-house software systems to ensure smooth workflows, get ahead of supply chain challenges, and even schedule time off.
As these examples prove, rugged devices are quickly becoming essential tools for accessing and sharing relevant information in challenging manufacturing environments. They offer a platform for data insights that are the results of a growing range of innovative technologies, from artificial intelligence to digital twins and more. Being able to harness data in real-time and use it to improve processes is vital to staying ahead of competitors, both now and in the future.
Simply put, rugged devices and solutions help manufacturers harness the full benefits of digital transformation. Partnering with the right technology vendor enables organizations across the sector to navigate the constantly changing complexities of modern manufacturing while also meeting sustainability targets.
Read more insights from our IDC whitepaper and learn how your enterprise can harness value from rugged devices.
As one of the leading rugged computer providers, Getac offers extensive rugged computing product lines and serves a wide range of vertical markets.