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Captec, designer and supplier of specialist computer platforms, has announced the launch of a brand new fully rugged tablet, built specifically for mobile workforces.

The lightweight, 8-inch VT 681 provides smaller fleets with an affordable Windows-based tablet and has been developed by Captec to disrupt the market currently dominated by more expensive rugged hardware.

Ruggedisation features include IP-67 protection and drop-testing to 1.2 metres, enabling the tablet to comfortably withstand the stresses of challenging environments including rough treatment, dust and water ingress and shocks.

With built-in GPS and an optional barcode scanner, the VT-681 supports the application needs of today’s mobile workforce across sectors including construction, field services, utility fleets and emergency services.

The addition of an integrated hand strap delivers maximum comfort on-the-go, while the active stylus pen increases the functionality available to field service professionals, even in wet conditions.

 

"With built-in GPS and an optional barcode scanner, the VT-681 supports the application needs of today’s mobile workforce across sectors including construction, field services, utility fleets and emergency services..."

 

For mobile workforces requiring use in and out of vehicles, Captec has also developed the IVM-681 vehicle dock, designed to accommodate the VT-681 tablet.

The new Captec dock is robust, compact and quick and easy to use. It features USB and power pass through and has been constructed to offer hassle-free, one-handed cost-effective docking.

To meet the critical safety requirements of in-vehicle applications, the dock has been tested for its ability to endure shock and vibration – enabling tablets to stay securely mounted, even in the event of a collision.

Gerard Marlow, Sales Director, Captec, said:

“We’re excited to be able to introduce this new rugged tablet into our range. Our aim is to provide mobile workforces with flexible, powerful and cost-effective mobile computing solutions that make their jobs easier and provide peace of mind that they’re equipped to withstand all the rigours associated with fieldwork.”

As well as developing the new tablet and dock, Captec offers a complete installation service. By fully managing everything from vehicle audits and custom cable looms to installation and through-life support, Captec optimise in-vehicle applications for reliability, safety and longevity.

Find out more about the Captec VT-681 rugged tablet here - https://www.captec-group.com/product/captec-vt-681-fully-rugged-tablet/

 

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Upskill, a leader in enterprise augmented reality (AR) software, today announced Skylight for Microsoft HoloLens is available for public early access in the U.S. Enterprises can now take advantage of mixed reality experiences on the same Skylight AR software platform that also supports assisted reality and mobile devices, at no additional cost.

Certain use cases for AR call for more immersive digital interaction that provides users with a large canvas to visualize the necessary information to complete their work. Skylight for HoloLens delivers this mixed reality experience, which is particularly relevant for hands-on workers completing complex tasks in manufacturing, maintenance and repair, as well as for on-the-job training.

Using Skylight for HoloLens, hands-on workers gain immediate access to:

 

• Spatial Content Placement: Place, move and resize digital content in the real world and reference while completing work completely hands-free.
• Multi-window Viewing: Simultaneously visualize, resize, interact with and cross-reference numerous sources of content in one, large screen.
• Native Content Integration: Access and display original reference materials, such as work instructions and engineering drawings in PDF format, instantly and without the need to reauthor content—a key advantage for enterprise customers.
• Natural User Interaction: Use simple hand gestures or head gaze to directly navigate applications, interact with content and reposition information within a workspace.

 

All of the features available with Skylight, including enterprise scalability, security and the ability to seamlessly integrate with virtually any system or database, can be leveraged across multiple device types, including smart glasses and mixed reality headsets, such as HoloLens.

“Our customers see augmented reality as the force multiplier that allows them to fully realize the potential of their workforce and digital investments,” said Brian Ballard, Upskill CEO and co-founder. “Skylight for Microsoft HoloLens will serve as the foundation that delivers the latest advances in visualization, cloud computing and artificial intelligence in a mixed reality environment.”

Terry Farrell, Director of Product Marketing, Mixed Reality, Microsoft Corp. said, “As adoption of Microsoft HoloLens continues to rapidly increase in industrial settings, Skylight offers a software platform that is flexible and can scale to meet any number of applications well suited for mixed reality experiences. With Skylight for HoloLens, hands-on workers are provided with the ability to interact with content and information in the most natural ways possible, leading to a safer, more efficient workplace.”

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A new fully-rugged solution purpose-built for the challenging conditions and uncompromising demands of those working within hazardous industries

Getac announced last week the launch of the new F110-Ex fully-rugged tablet, as an enhancement to its popular F110 model, designed to deliver unrivalled efficiency, reliability and safety to workers in hazardous environments.

In many industrial sectors, extreme temperatures, poor weather conditions and close contact with dangerous substances are all factors to contend with daily. Workers need devices they can rely on for efficient field maintenance, accurate safety checks and equipment monitoring tasks. IT failure not only has a significant impact on productivity, it also puts lives at risk.

The new F110-Ex fully-rugged tablet has been designed with this in mind. Featuring an 11.6-inch sunlight readable display and weighing just 1.49kg, it is both versatile and compact providing reliable operation in the field. MIL-STD810G and IP65 water and dust resistance certifications ensure seamless operation in wet, dirty environments, while an operating temperature range of -21°C to +60°C ensures full functionality in even the most extreme conditions.

The F110-Ex features intrinsic safety design limiting electrical and thermal energy output to a level below that required to ignite hazardous atmospheric mixtures. Like all of Getac’s Ex fully-rugged tablets it is certified to ATEX, UL913 and IECEx standards, for complete operator safety.

Powering digital transformation

Advances in AI and IoT technologies are powering digital transformation across all industrial sectors and the F110-Ex allows those businesses working in hazardous environments to fully benefit from productivity and process improvements and migrate legacy paper-based documentation to live and even cloud solutions.

Chris Bye, President at Getac U.K. Ltd, comments, “The F110-Ex enables users to safely collect and send digital data, capture images and even engage in video communication in high-risk environments, helping enterprises complete the last mile of digital transformation.”

Exceptional performance and security

Equipped with the 7th generation Intel Kaby Lake Core processors and multi-factor security mechanisms, the F110-Ex provides exceptional computing power and secure authentication. Full data protection is provided by Windows 10, with an optional face recognition camera compatible with Windows Hello, as well as barcode scanner and (LF/HF)RFID reader.

As one of the top rugged solution providers, Getac offers a comprehensive portfolio of vertically integrated solutions for all types of extreme operating conditions.  In addition to the new F110-Ex, Getac’s fully rugged tablet portfolio includes the EX80, ZX70, T800 and other ATEX-certified models, all delivering exceptional ruggedness and performance for hazardous industries.

Availability:

The new F110 will be available to buy from 27th September 2018. For more information, please visit: www.getac.com

 

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We recently gave Janam’s XT100 handheld computer a full Hands-On review and now we turn our attention to its sibling the XM75 which shares mostly the same specifications but comes in a different form factor...

In March earlier this year, Janam announced two new handheld computers to their range - the XT100 and the XM75. Inside the guts of both devices are almost identical but there are some slight differences and of course, the XM75 occupies a different form factor, more geared towards data input with a 24 key numeric keypad and also a purpose-built trigger handle available as well.

Having given the XT100 a rigorous hands-on review when it launched we thought we should also get it’s sibling into our offices to compare the two and to see which workflows each device would be more suited to.

 

What the manufacturers say:

Pocketable, Powerful Tough.

Janam’s XM75 rugged mobile computer makes it easy to capture business-critical information accurately and efficiently. As one of the only devices specially designed for input-intensive applications, the XM75’s compact form factor combined with larger keypad design delivers the ideal solution for organizations that want an easy-to-use keypad and large touchscreen in the same device.

 

The XM75 is sealed to IP67 standard against dust and immersion in up to 3 feet of water. It can withstand multiple 5’/1.5m drops to concrete per MIL-STD 810G across a wide temperature range...

 

Pocketable and powerful, the XM75 supports the enterprise-ready Android operating system with Google Mobile Services and meets all the requirements of the most demanding environments, including transportation, logistics, route accounting, direct store delivery and field service.

Weighing only 10.5 ounces, the XM75 is one of the lightest yet most rugged devices in its class and is packed with advanced features to boost productivity, streamline operations and improve the customer experience. Offering 4G LTE, Wi-Fi, GPS and Bluetooth, the XM75 provides lightning fast and reliable access to voice and data applications inside the enterprise and out in the field.

The XM75 is sealed to IP67 standard against dust and immersion in up to 3 feet of water. It can withstand multiple 5’/1.5m drops to concrete per MIL-STD 810G across a wide temperature range. A standard 2-year warranty provides customers with both peace of mind and the level of service they require, at no additional cost, with optional Comprehensive Service plans available to those that want to further extend their mobile computing investment.

 

First impressions:

The XM75 does pretty much what you would expect of it - for those that read our previous review of the XT100 for all intents and purposes, it is an XT100 with a keyboard instead of just the capacitive screen.

This does, of course, make the device’s footprint slightly larger (76.83mm x 166.01mm x 29.27mm for the XM75 vs 70mm x 136mm x 17.4mm) which subsequently, of course, adds additional weight to the device as well and it comes in at a full 3oz heavier than the XT100 making it about 30% heavier.

 

"The device is far from in heavy even when strapped into the trigger handle (which is itself surprisingly light) and both in and out of the trigger we found the device to be ergonomic and comfortable..."

 

That said the device is far from in heavy even when strapped into the trigger handle (which is itself surprisingly light) and both in and out of the trigger we found the device to be ergonomic and comfortable.

All in all the XM75 feels very much as it is intended to, a robust yet relatively lightweight handheld designed with the factory, warehouse or field worker in mind.

But ist there more to the differences between the XM75 and XT100 other than form factor?

 

Processing power:

In terms of processing power, the two devices are identical with bot the XM75 and the XT100 having a 1.2 GHz Qualcomm Snapdragon™ 410 quad-core. In terms of the market for similar devices as to the Janam offerings, these offer a fairly standard amount of processing power.

They both also come with 2GB RAM and 16GB ROM as standard. Again this sits pretty much in the middle of the pack in terms of similar devices and is definitely suitable for a number of field service applications.

Also, the memory in both devices is expandable via a user accessible Micro SD slot with SD and SDHC support – which can become a very useful option for engineers who need to record a lot of data, or even for those who work in offline environments regularly where locally storing asset maintenance information to aid a first time fix could be of benefit.

 

Operating system:

The XM75 is currently running Android 6 (Marshmallow) - which is a perfect option for industry, focused devices and as such is also on the XT100.

 

"The XM75 is currently running Android 6 (Marshmallow) - which is a perfect option for industry, focused devices and as such is also on the XT100..."

 

Whilst the latest consumer devices are now running Android 8 (Oreo) and some even beginning to see Android 9 (Pie) - in a world of enterprise the need for a robustly road-tested OS is hugely important. Marshmallow is currently the most advanced iteration of the OS that also has the stability required for enterprise-grade computing so a sensible option for both devices.

 

The Ins & Outs:

As with another of Janam’s handheld computers former flagship device the XT2, Neither the XM75 nor XT100 have a huge array of physical input options – but this can’t really be avoided in a device of such a size.

However, both devices benefit from good ergonomic design of in terms of the placement of hard keys are configurable but whose primary role would be most certainly be engaging the dedicated barcode scan engine (Honeywell N6603 2D Imager) which incidentally was both fast and effective in our tests of the XM75.

Of course, one of the major differences between the two is that the XM75 also has the optional trigger handle which offers yet another hard key and makes the device super easy for any role that requires a high volume of scanning.

The other significant difference between the devices then is also the 24 key numeric keypad which certainly appears to be well made, with the keypad having both a reassuring feel of durability to it as well as offering that important tactile feel that simply cannot be overlooked when a workflow involves inputting short text and numbers frequently within a workflow.

Another nice touch with regards to the keypad is that it is backlit. It is these little details that can make a huge difference if, for example, your field staff are working in a dark location - and it is the mark of a good manufacturer that doesn’t skip these small but important details.

 

Ruggedity:

When we reviewed the XT100 we pointed out that whilst the XT100 holds its head high with good rugged credentials albeit slightly less so than its sibling the XT2. The XM75 however, has the higher rugged credentials of its elder cousin.

 

"The XM75 also boasts of a higher IP rating than the XT100 with a rating of IP67 meaning that it is even less susceptible to water ingress than the IP65 rated XT100..."

 

Whilst the  XT100 is capable of withstanding multiple drops at a respectable 1.2m the XM75 has been tested at the higher drop height of 1.5m and in our testing, it survived such drops without a scratch. In fact, we even tested it in and out of the trigger handle and throughout our entire series of tests it only ever came out of the handle once - a good sign is given that the XM75 will almost invariably be used primarily within the handle.

The XM75 also boasts of a higher IP rating than the XT100 with a rating of IP67 meaning that it is even less susceptible to water ingress than the IP65 rated XT100.

When it comes to operating temperature ranges both the XM75 and the XT100 operate within a range of -20 to 60 degrees centigrade – which means that even in the most inhospitable environments the device should function effectively, and in terms of humidity they are both is non-condensing up to 95%. Finally, the capacitive touchscreen boasts toughened Corning Gorilla Glass 3 to further add to the devices robust credentials.

 

Battery Life:

In terms of battery life the SM75 again just edges out the XT100 with its 4100mAh rechargeable Li-ion battery compared to the XT100’s 3000mAh 3.8v rechargeable Li-ion battery.

 

"Both devices should be capable of seeing out most field service engineers working days, especially if the device is placed in an in-vehicle charging cradle in between jobs..."

 

This is of course, likely to be the result of Janam taking advantage of the slightly larger form factor, but it certainly does make a difference. We found that the XM75 held battery life across an 8 hour day of reasonable to heavy usage considerably better than the XT100. When we reviewed the XT100 and ran it through our tests the battery was finished the day on 14%. The same tests for the XM75 saw the battery level at the end of the day at 27% so this is certainly a factor to be considered if your field workers tend to work longer hours on occasion.

That said, both devices should be capable of seeing out most field service engineers working days, especially if the device is placed in an in-vehicle charging cradle in between jobs.  However, for those engineers who are required to spend long days in one location, a four-slot battery charger is an optional accessory.

 

Conclusion:

When we reviewed the XT100 a few months back we praised it as a solid mid,-market handheld computer that was particularly elegant and comfortable in hand and was remarkably light for a rugged device.

Similar things could be said for the XM75 although when it comes to roles where there is a large amount of scanning or field completion then the XM75 becomes the choice between the two. Similarly, if your field staff are in slightly more rugged environments, the XM75 just edges its close sibling with slightly better-rugged credentials.

However, both are a solid choice for field service organisations looking to empower their field workers with handheld mobile computers powerful enough for the job, rugged to survive yet with a light footprint.

 

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It seems there has been something of a convergence between the worlds of rugged manufacturers and their consumer peers across the last few years. In the past, the two occupied very separate worlds.

Rugged was very much the world of heavy, chunky, and robust devices, whilst the consumer equivalents were sleeker, more refined and more likely to break if they got dropped.

Today, however, the line has certainly blurred substantially in the middle. Take Xplore’s R12, a fully rugged tablet that smartly converts into a two-in-one powerful enough to be a more than adequate replacement for a desktop let alone a laptop.

Now, whilst the R12 may still look like a heavyweight lining up against a featherweight if put alongside a Microsoft Surface, which would be its most suitable comparison within the consumer realm, it by no means fits the traditional image of a rugged device - i.e. cumbersome, bulky and awkward. It is a sleek looking and excellently engineered device whose lightweight feel belies its robust rugged credentials.

Of course, this is not a one-way street either.

 

"Consumer devices are increasingly likely to have higher certifications that we previously only would have seen in a rugged spec..."

 

Consumer devices are increasingly likely to have higher certifications that we previously only would have seen in a rugged spec sheet.

Take for example Samsungs current flagship smartphone the Note 8.

Not only does have an impressive 6GB RAM on an 1.7GHz octa-core processor making it an exceptionally fast device, but it also has its own Dex docking station that essentially turns it into a mobile desktop by allowing you to plug into a TV or Monitor via HDMI - something that could be hugely useful for the field engineer who needs to give a presentation whilst on the road for example.

Then when we add into the equation that the Note 8 is certified at IP68 (meaning it is essentially impervious to both water and dust ingress) could an argument could be made for it being a strong device for field service use.

We recently hosted a fieldservicenews.com exclusive webcast with rugged specialists Xplore Technologies and the topic of what defines rugged manufacturers against this backdrop of blurring lines was a major talking point within the session.

Our panel consisted of Steve Priestly and Cliff Adams, VP International Sales and Product Marketing for Xplore respectively as well as Bob Ashenbrenner, President of Durable Mobile Technologies.

 

"With the lines beginning to blur between rugged and consumer mobile devices, is there more to why an organisation should choose to work with a rugged manufacturer other than just the specs these days?"

 

The question was put to the panel ‘With the lines beginning to blur between rugged and consumer mobile devices, is there more to why an organisation should choose to work with a rugged manufacturer other than just the specs these days?’

Priestly was the first to respond “I think you raise a very good point in terms of the lines becoming more blurred. At Xplore, where we have more than 20 years worth of experience, we would say that maybe the words are blurred but the principals of building a rugged device are not blurred at all - they a very common.”

“We have built rugged devices from the ground up, with the most rugged of architectures to support all the elements of rugged mobile working.”

 

"I think one of the areas that people get most confused is IP68 - well what does that mean in a rugged environment?"

 

“I think one of the areas that people get most confused is IP68 - well what does that mean in a rugged environment?”

“What is most important in the enterprise environment is for us to be able to demonstrate that we are rugged, we are classified in the industry standard specifications but our product still has all of the appropriate I/O, accessories and capabilities to be able to run the workflow of the mobile worker.”

“That has to be the same across all of our devices and whilst we may share some common specifications with a consumer manufacturer,  but that doesn’t mean they are as rugged as the products we provide”

Ashenbrenner also concurred with Priestly’s sentiments further adding:

“A lot of consumer devices have very little I/O [input/output]and in an enterprise environment having the right amount of I/O  is really, really important,” he explained.

“Now, without I/O it is fairly easy to make an IP68 device - there are very little openings for water or dust to get in. So these consumer manufacturers have sort of stumbled upon an IP68 rating and have thought they that’s one of the things the rugged guys talk about, let’s declare that we’re rugged -well that’s not how it works.”

 

"IP68 is just one feature. It doesn’t cover knocks, it doesn’t cover drops, it doesn’t cover other abuses such as vibrations and such..."

 

“IP68 is just one feature. It doesn’t cover knocks, it doesn’t cover drops, it doesn’t cover other abuses such as vibrations and such. So my advice to field service organisations is don’t be fooled by that one rating they accidentally got when that is only part of the bigger picture.”

“One thing I would just add is that one thing the IP rating doesn’t give you in terms of dealing with a rugged environment is the ability to operate within a wide range of temperatures,” Adams commented.

“If you are going to be operating out direct sunlight or if you are going to operate in a location where there are extremely cold climates, that wide temperature range is something that you will not find on a consumer device. If you need to perform in such conditions then a rugged device has to be the obvious choice there.”

“This is especially true when it comes to tablet devices, where you are running full feature software applications that consume a lot of processing power. A sealed consumer tablet will not have a fan, something which is critical to maintaining the full power of the CPU in those hot environments.”

[quote float="left"]The Xplore range of tablets have internal fans that are isolated from the elements so they can still  have a high IP rating whilst being able to dissipate that heat and maintain that processing power[/quote]“For example, the Xplore range of tablets have internal fans that are isolated from the elements so they can still  have a high IP rating whilst being able to dissipate that heat and maintain that processing power.”

It is of course, these often nuanced details that can get overlooked when we are looking at spec sheets, especially when as is often the case, the purchasing decision is largely driven by either by members of the field service operations team who may not have the deep technical knowledge to be able to fully compare the two devices, or alternatively IT professionals who perhaps do not have the operational experience to fully understand the complexities of the various operating environments the devices will be utilised within.

Another major difference between rugged manufacturers who are serving the enterprise market and more consumer-focused manufacturers is the frequency with which they update their devices - with consumer devices generally going through an upgrade cycle far more regularly than a rugged equivalent.

Whilst, in the consumer world this ongoing arms race between manufacturers to produce devices that can outperform their competitors is one sense advantageous in that it drives continuous innovation and technological advancement, in an enterprise environment such constant change can actually be a negative.

 

"One of the key requirements for a device used by field service engineers is reliability..."

 

One of the key requirements for a device used by field service engineers is reliability - so it is, therefore, essential that the devices a service organisation deploy to the field are stable.

In addition to this in today’s world where security of data is paramount and the threat of cyber attacks something all companies must be vigilant Mobile Device Management (MDM) is a major consideration - something that can become a significant headache for companies that are tied into the faster pace cycle of device and OS upgrades of consumer devices.

So the longer shelf life of rugged devices designed specifically for use within a business environment is another major plus in their favour - but even then there must be a balance between stability and ensuring the tools you provide your field engineers with are sufficiently up to date to deal with the demands of the software they are using.

This leads us to a critical question - just how long should we wait before we roll out new devices to our field workers? And how should a field service organisation assess the decision of whether it is time for them to invest in new devices for their field engineers?

Most companies when they are deploying tablets and begin a project they think about a three-year time frame,” Ashenbrenner states.

 

"Three years is a good time frame to roll to new technologies and have an R.O.I (return on investment). However, the real issue is 'does it still do the job?'"

 

“That is because three years is a good time frame to roll to new technologies and have an R.O.I (return on investment). However, the real issue is 'does it still do the job?' and most of that comes down to software.”

“If the original device has enough processing power and memory to handle the software you are using - especially the updates that are pretty frequent, and also when new capabilities are being added that is when you tend to see people saying ‘hey this is still working, I can upgrade my software’ and this is when you can see the longer uses in the field - sometimes five years, sometimes even seven years,” he adds.

Adding a slightly different take on the question Priestly commented:

“To my mind, there are a few different things that come into the equation. Firstly, there is a financial discussion which says how long will the equipment be depreciated within the companies financial statements - and typically three years is a good answer to that. It fits well with other technologies and it allows them to look at it in a common way”

“But that doesn’t describe how it is used in the field. The challenge that Xplore faces is that things will dictate outside of this what the life cycle of the device is. It could be something as simple as data security that causes a change in equipment to drive an additional set of features.”

“Or alternatively it could be that everything is fine after the three years and they are getting free use from the devices for as long as they need to.”

 

"One of the things that Xplore would point to is that is in our longest running platform we reiterated the device to stay on top of the processing and memory requirements of the device and were able to do that for seventeen years..."

 

“One of the things that Xplore would point to is that is in our longest running platform we reiterated the device to stay on top of the processing and memory requirements of the device and were able to do that for seventeen years.”

“That is seventeen years within a single eco-system that an enterprise could get around. Yes, the device changed over time, but it remained the same form factor and enabled an enterprise to be stable within its use.”

“Whether that enterprise is a government facility, military would be a good example or perhaps a pharmaceutical clean room environment where the absolute top end of the specification is required - that is the type of thing that Xplore looks to - being on top of the changes in terms of the technical and customer requirement, whilst being able to provide stability for a long period of time both in our service and in our product capabilities.”

“That is a great point and something that must be considered,” Adams adds.

“Especially when we see consumer devices that come out that each have a slightly different form factor because they are really going for those aesthetic changes. A rugged device is really tailor-made for enterprise environments.”

 

"A rugged device is really tailor-made for enterprise environments..."

 

“Change isn’t necessarily good in such environments, stability is something can enable companies to keep costs lower and devices deployed longer and at Xplore, we understand that so we build our chassis so they can be upgraded over the years but still maintain common accessory eco-system over those generational upgrades.”

This is, of course, another hugely important consideration that is often overlooked within discussion around device selection for field service organisations - the range of accessories available. Most rugged manufacturers provide accessories such as vehicle mounts that are designed specifically to fit their devices and to ensure that issues like vibration don’t impact upon the device.

By maintaining the same form factor and chassis, rugged manufacturers such as Xplore are able to help their clients avoid the additional costs of new accessories each time they invest in new devices - something that can stack up to quite a considerable additional cost if you have a large field workforce.

Something that we’ve discussed a number of times in Field Service News that was also reflected within the webcast was that companies must have an understanding of the workflow of their engineers and then select their devices accordingly.

However, for many organisations there will be varying different roles being carried out within the field so how should field service organisations decide just how many different devices and form factors they should deploy to find a balance between equipping their varying types of field workers with devices suitable for their requirements and having to types of devices deployed - which again can cause problems when it comes to MDM?

 

"It is important to have the right device for the person and for the right workflow..."

 

“It is important to have the right device for the person and for the right workflow,” comments Adams.

“At Xplore, we offer an array of device form factors, but also within those form factors, we have an array of different computing options. So you could get an entry-level CPU if that works for the user and they don’t need a top of the line processor we can offer that, but then we also offer within the same form factor high performance options or even different I/O options - so there is a way an organisation can still manager a smaller number of devices and still provide a choice to the user so they are putting the right device in front of the right worker at the right time.”

“To add to that one of the things that should also be considered is the definition of the software to support the workflow you are trying to automate in the hands of the worker,” Priestly adds.

“That will dictate the type of data that needs to be input, the type of data that needs to be viewed and the type of data that any business information is driven from often dictates the type of device that will need to be used.”

“If there is a lot of form filling or repetitive tasks such as barcode scanning a handheld fits that bill very well. Then as you move between that and a larger device such as our twelve-inch tablet very much that is dictated to by the workflow itself.”

“Let me add a few real-life examples,” added Ashenbrenner as the discussion drew to a close.

“In utilities, you will tend to see all of the repair workers will use one type of device but meter workers and meter repair is a whole different area and so you will likely see handhelds being used in that situation.”

 

"Where beat officers on the front line might be using a tablet, detectives in the same police department tend to gravitate towards two-in-ones..."

 

“Another example might be in law enforcement, where beat officers on the front line might be using a tablet, detectives in the same police department tend to gravitate towards two-in-ones.”

Indeed, Ashenbrenner’s final point in the discussion is an important one that highlights just how many variables must be considered when selecting the right devices for your field workforce.

However, one thing that remains clear is that whilst on the surface it may appear that the lines between rugged and consumer devices are blurring, the reality is that for companies seeking to maximise their R.O.I from the mobile devices they use, there are far deeper considerations than headline tech specs - and this is where working with dedicated manufacturers such as Xplore can truly bring additional value to the table via their understanding and insight of how organisations will be utilising the devices in the field, how to extend the life of those devices where possible and of course how to roll out new devices whilst avoiding significant disruption to day-to-day field service operations.

The ball for the time being then remains firmly in the rugged court.

 

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Sokkia introduces the new T-18 handheld controller designed to offer a durable ergonomic solution with faster processing, a larger screen, better connectivity and longer battery life than previously available comparable systems.

The controller includes a 3.7-inch sunlight-readable display with a 1GHz processor, 1GB of internal storage, internal GPS, and up to 10 hours of battery life.

“The T-18 controller is extremely versatile and perfect for driving geo-positioning, construction, mapping and vertical construction applications,” said Ray Kerwin, director of global surveying products, Sokkia. 

The field controller features a 3.5G cellular modem that allows users to access the internet for RTK (real-time kinematic) correction services.

“Additionally, the internal GPS option provides a navigational functionality that is capable of accuracies in the three-meter range. With a 72 channel, all-in-view tracking receiver, it can be used for navigation or general positioning,” said Kerwin.

Other key features include standard Bluetooth® and Wi-Fi connectivity, as well as an IP65 rating for dust and water protection. Visit Sokkia.com for more information.

 

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In this excerpt from a recent Field Service News webcast sponsored by rugged computing specialist Xplore Technologies FSN Editor-in-Chief, Kris Oldland is joined by Steve Priestly and Cliff Adams of Xplore and Bob Ashenbrenner of Durable Mobility Technologies as they discuss some of the key questions around device choices field service organisations should be making including asking whether the lines between rugged and consumer are blurring, how to decide which form factor is right for your service technicians and just how often should field service companies be seeking to update the devices that they have deployed within the field.

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The full webcast is available to fieldservicenews.com subscribers and if you are a field service industry practitioner you may qualify for a complimentary industry subscription.

Visit fieldservicenews.com/subscribe to apply now!

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Combined Soil Stabilisation Ltd increased the accuracy of the earthworks process using machine control technology on a major road project in East Anglia. 

The project will see the development of a new 20km carriageway, stretching from the A47 in Postwick with Witton, east of Norwich, to the A1067 at Fakenham Road, north of Taverham. Once complete, the new northern development route will provide a semi-circle road around Norwich to help ease local areas of traffic congestion.

Combined Soil Stabilisation Ltd, a leading subcontractor within the soil stabilisation and earthworks industry, was appointed to stabilise the site won soils and prepare surfaces across the site ahead of the tarmac laying process. The team at Combined Soil Stabilisation Ltd needed equipment that would allow their graders to work to an extremely tight accuracy.

Before introducing the Topcon technology, we would have required engineers to be on the site, measuring and marking out with sticks, tape and ropesThe team, who were working near obstructions such as bridges and tunnels, which can cause barriers for GPS signals, also needed a system that can deliver precise positioning data even when signals may be blocked.

Combined Soil Stabilisation Ltd chose the Topcon 3D Local Position System (LPS) Robotic to be fitted to its graders. The LPS system uses an additional robotic total station and local networks to gather positioning data, allowing constant contact, accuracy and control for the machine operator.

“Before tarmac could be laid to create the topcoat of the road, the soil surface needed to be cut down and prepared within millimetres of accuracy. In this case, we were working to +/-10mm,” explains Stefan Stansfield, Managing Director at Combined Soil Stabilisation Ltd.

“Tarmac is an expensive material so it was vital that the soil surface was smooth and precise, to ensure that no additional product was needed to create a more even or level surface. Traditional methods of grading and GPS software we’ve used in the past would have made getting a tight trim tolerance of +/-10mm near impossible, as it wouldn’t have been accurate enough.

“Before introducing the Topcon technology, we would have required engineers to be on the site, measuring and marking out with sticks, tape and ropes. Instead, using the 3D LPS Robotic system on our Graders meant that we required less engineers to operate the machinery, saving us time, money and improving health and safety on site, as well as allowing us to work to the accuracy required. Topcon’s technology and equipment also helped to increase our efficiency on site and made the job much less labour intensive.

Work on the northern development route is still ongoing and will include the addition of two roundabouts and bridges to carry the dual carriageway over existing roads.

Stefan concluded: “The technology is definitely at the top end of the industry and Topcon has some of the most advanced local positioning systems that can be fitted to plant. Using the 3D LPS system in our Graders, we could instantly see where the machines were and check the level of trim tolerance. The equipment made it easy for us to save, not only in terms of time and money, but also on the amount of tarmac that could be wasted during the project.”

For more information about the Topcon technology used, please visit: www.topconpositioning.com/en-gb.

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Captec is pleased to announce the agreement of a new strategic partnership with Getac, one of the world’s leading providers of rugged mobile computing solutions.

The new relationship demonstrates Captec’s commitment to the in-vehicle sector, and will see it gain access to Getac’s fully rugged tablet range to deliver reliable usage in critical working environments.

By combining Getac’s tablets with its end-to-end installation service, Captec will deliver complete solutions for in-vehicle applications, optimised for reliability, safety and performance.

Captec’s service comprises tablet sourcing, customisation, vehicle auditing, installation and comprehensive through-life technical servicing and support.

With in-depth experience of in-vehicle applications, Captec can integrate Getac mobile tablet computers into any service vehicle, regardless of make or model. Captec supports applications in a wide range of industries including emergency services, field services and defence.

Successful Captec and Getac deployments already include a waste management application, saving a customer time, money and inconvenience by reducing unnecessary vehicle recalls.

Peter Molyneux, Director of Sales, Captec, said: “Getac’s fully rugged solutions enhance our ability to satisfy specific mobile user demands in critical working environments, whilst lowering the total cost of ownership over the life of projects.”

This new relationship is the latest in a line of strategic agreements that benefit the in-vehicle market. Chris Bye, President, Getac, said: “Getac’s recent expansion has been built through working with an exceptional group of partners, organisations that genuinely provide value to their customers.

“Captec’s capabilities through engineering heritage epitomises this and its experience in customising solutions specifically to customer requirements, building on our durable, reliable and secure mobile platforms, is exceptional.”

This new relationship is the latest in a line of strategic agreements that benefit the in-vehicle market. Partnerships have already been tied up with industry leaders including Gamber-Johnson and Havis, as Captec grows and enhances its capabilities in this specialised sector.

Find out more about Captec’s end-to-end vehicle installation service here.

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