Here we are again everyone. Another Sunday and another selection of roles from here, there and most definitely everywhere that involve any and all aspects of the immersive technology spectrum. Whether it’s doing engineering with a firm that make augmented reality (AR) smart glasses, brand management at a videogame company that do virtual reality (VR) titles or demoing things for one of the big names in headset manufacture. There’s usually something for everyone.
Let’s see what the end of October 2018 brings. Check out this week’s listings below.
That’s all for this week, but don’t forget if there’s nothing here for you this week you can always check out last week’s listings on The VR Job Hub.
If you are an employer looking for someone to fill a VR, AR, MR, XR or related technology role – regardless of the industry you’re a part of – don’t forget you can send us the lowdown on the position and we’ll be sure to feature it in that following week’s edition. As always, please send details to both myself (keva@vrfocus.com) and also Peter Graham (pgraham@vrfocus.com).
We’ll be back next week on VRFocus at the usual time for more jobs from around the world.
French company Dassault Systèmes has announced the launch of the latest version of its 3D design and engineering application suite, SOLIDWORKS 2019. The latest version of the package come with several enhanced features and new functionality, including the ability to experience designs in virtual reality (VR) and augmented reality (AR).
SOLIDWORKS 2019 is powered by the Dassault Systèmes 3DExperience platform, and has been created to support the entire process from design to manufacturing, with specialised capabilities to solve complex design challenges.
The new featured added to the latest version of the application package lets product development teams better manage large data volumes and capture more accurate digital representations of a design. The new technology also means that collaborative projects are easier, particularly with the ability to view a project in AR or VR for interactive experiences during design or engineering meetings.
“We are using SOLIDWORKS to support implementation of the Maunakea Spectroscopic Explorer 10-meter-class telescope that will open new possibilities for scientific discovery,” said Greg Green, Mechanical Designer/Instrument Maker, Canada France Hawaii telescope facility. “Our design processes generate a large and growing dataset. The final production version of the telescope will contain over 100,000 parts. We needed technology that can tackle large design projects, and SOLIDWORKS delivers.”
One of the key new features is referred to as ‘Extended reality or XR, a new application for publishing CAD scene data into VR AR or web viewers. With the rise of affordable VR and AR viewers, this development means that designers and engineers can use SOLIDWORKS XR to improve internal design reviews, sell designs more effectively to clients and train users how to assemble and use new products.
“This latest SOLIDWORKS release is packed with enhancements and innovations built based on insights and feedback from the SOLIDWORKS community. We continue to drive our products forward in terms of usability, quality, and productivity, and SOLIDWORKS 2019 delivers a complete design ecosystem,” said Gian Paolo Bassi, CEO, SOLIDWORKS, Dassault Systèmes. “Designers and engineers who prioritize design performance, attention to detail and innovation, as well as seek the powerful storytelling capabilities of VR and AR, can experience the prototyping shop of the future—one where digital design data makes it easier to visualize parts in 3D and improve how designs are translated from virtual to real.”
For future coverage on new developments in VR and AR, keep checking back with VRFocus.
Augmented reality (AR) headset manufacturer Meta has announced new integration with Dassault Systèmes’ SOLIDWORKS applications, allowing users to 3D CAD models in AR.
First revealed by Suchit Jain, vice president of strategy and business development for Dassault Systèmes’ SOLIDWORKS brand, during a keynote session at SOLIDWORKS World in Los Angeles, the session that also featured a live demonstration of Meta’s and SOLIDWORKS’s new AR capabilities.
SOLIDWORKS “Publish to Xtended Reality” option will allow users to export a CAD model from SOLIDWORKS to a customized version of an open-source format known as “glTF.” Once this in done it can be viewed via Meta’s Model Viewer platform in the Meta 2 Development Kit headset.
“Collaboration through augmented reality is the next step in the natural evolution of 3D design authoring,” said Kishore Boyalakuntla, vice president, product portfolio management and SOLIDWORKS brand UX leader, SOLIDWORKS, Dassault Systèmes in a statement. “With Meta extending new AR features, designers across the product life cycle – from concept to prototype to manufacturing – will benefit significantly from this partnership.”
Using the Meta 2 Development Kit users are able to grab, move, and scale photorealistic 3D CAD files, enhancing the 3D design and presentation process.
“Support for 3D CAD viewing is important to our customers, and for the growth of the AR market,” said Joe Mikhail, chief revenue officer of Meta. “With this new SOLIDWORKS integration, our mutual customers will drive tangible business value from their existing SOLIDWORKS models. And for our developers, this technology will enable them to create more immersive, realistic and transformative AR experiences in the blink of an eye.”
Meta began shipping the Meta 2 in late 2016, with the development kit available to order from Meta’s website, or later this month through Dell for for $1,495 USD. Initial access to the private beta program will be by invitation only. Those interested in participating can find more details here. For further updates from Meta, keep reading VRFocus.
As we’ve covered – pretty extensively – on VRFocus, virtual reality (VR) can be used in a great many arenas beyond just videogames. Use of VR, and indeed other elements of immersive technology like augmented reality (AR) and mixed reality (MR), can be found in use within the arts. In a creative context for film, television, art and more. Last week saw many announcements in relation to the Sundance Film Festival for instance, where each year VR’s presence encourages new and clever ways to make a point or tell a story. We’ve seen it being used in the field of medicine, in design and architecture and more. We’ve also seen immersive tech be used in the field of academic research – not just education, where it arguably has endless potential.
It was VR, that the scientists who feature in a new documentary airing tonight about the wonders of Egypt, turned to when investigating the mysterious new chambers that were discovered not all that long ago inside the Great Pyramid of Giza – oldest of the seven wonders of the ancient world.
The documentary in question is Scanning The Pyramids, a new production by CuriosityStream that airs tonight at 10:00PM ET, after which it will also be available on demand. In it filmmakers chart the difficult processes and ground-breaking technologies combining VR with new cosmic ray technology to peek beyond the readily visible and reveal secrets that have lay hidden for thousands of years. These voids within the pyramid of Pharaoh Khufu are not readily accessible but thanks to the work that has been done much more is known about the internal structure of the pyramid and where further researchers might begin their work on the heavily protected ancient building.
The team are led by Professor Hany Helal along with a software team from Dassault Systèmes, who we have featured on VRFocuson a number of occasions.
To Steve Burns, CuriosityStream’s Chief Programming Officer, it’s an intriguing insight into equally intriguing work. “The pyramids have fascinated both scientists and treasure-seekers for 4,000 years. Scan Pyramid’s new techniques have allowed us to virtually ‘x-ray’ the massive monument and locate possible unknown chambers that may yet solve the mystery of how the pyramids were built.” He explains. “Ironically, King Tut was just a boy king, but he had amassed great riches that were found inside his tomb in the Valley of the Kings, 300 miles south in Luxor. On the other hand, Khufu was an important and long-serving pharaoh, yet nothing has ever been found inside his tomb, The Great Pyramid. Could these new chambers hold his hidden treasure? The potential is extremely provocative.”
You can find more information about the broadcast on the CuriosityStream website and there is a preview trailer below.
The virtual reality (VR) industry is growing all the time, reaching areas such as construction, healthcare, advertising, engineering and lots more. Roles are available for community managers, programmers, designers and lots more.
As usual, you can check last week’s edition for further job listings. If you are an employer looking for someone to fill a role in a VR or AR related area and want that position to be featured on next week’s VR Job Hub, please send details to either pgraham@vrfocus.com or keva@vrfocus.com.
Check back with VRFocus next Sunday at 3PM BST every Sunday for the latest roles in the VR industry.
When Virtual Reality (VR) content is experienced using a VR headset the outcome is a virtual world. In that world, the possibilities are limited only by the imagination. This approach has given education an opportunity to leapfrog existing teaching practice by providing educationally beneficial immersive experiences.
The first among these is that VR allows students to be absolutely captivated by the teaching. All teachers want their students to fully concentrate on their lesson. But teachers know that students do not, and sometimes cannot, concentrate that way. However, they will in their ‘spare time’ devote many hours of concentration to gaming. Working late into the night on their consoles reaching the next level is common, but how many of those millions would do the same to study.
Educational success is the key determinant for a good future. Unfortunately, many students are failed by the education system. These are not all disruptive, lazy or `stupid`. In many cases the current education system does not suit them and they get nothing from it except boredom and demotivation.
It has been demonstrated that anyone from the highest achiever to the ‘total academic failure’ can benefit from the way virtual worlds impart educational content. The playing of games for hours shows that people can easily concentrate for that length of time and that during that time they are learning – even though the lessons may seem meaningless outside the game itself. These lessons are absorbed without even knowing it is happening. How else can players rise through the levels and achieve their rewards.
Game on
Many gamers are keen users of VR headsets because they impart a deeper impression of the virtual world than a computer screen through immersive interaction. The cost of these devices is becoming reasonable as the hardware and its application areas evolve: Google’s Cardboard VR glasses in combination with an application for instance cost very little money while high-end devices with faster refresh rates, hand control, and motion capture used in gaming are becoming affordable being currently in the hundreds of pounds range.
Transferring the lessons of gaming to educational applications produces the immediate benefit that the students can fully engage in the virtual world and learn their lessons there. Students of any age can be fascinated by virtual worlds which means it can be deployed from pre-school through to tertiary education then continuously applied to in-work training.
The UK alone requires 70,000 new engineers every year to cover the current skills shortage. And a serious problem currently facing STEM (Science, Technology, Engineering and Mathematics) education is that students learn each subject in isolation. In a world of work where cross-disciplinary and cross-organisational team skills are required this is an obvious disadvantage to job seekers and employers.
Dassault Systèmes is working with several universities developing solutions to overcome this problem. This involves international teams of STEM students combining their different disciplines in real-time on the same projects. This is supported by using ‘intelligent’, cloud hosted 3D models as a shared and unifying resource to collaborate around. Working in cross-disciplinary teams means communicating, sharing and combining experiences and skills. Learning this way makes the students more employable because their educational experience and acquired set of skills closely matches their eventual work environment.
Virtual Worlds of STEM
The use of virtual worlds can easily supplement traditional chalk and talk lessons and replace 2D presentation that many students find uninspiring. Stepping into a virtual world shows students the what, how and why that make learning interesting and compelling. VR can be applied to most learning and is particularly appropriate for teaching STEM subjects or training people for engineering work. This is because of the highly-realistic 3D visualisation content including animated 3D simulations of very complex products, processes and systems.
Here the advantages are clear. Students can for example work on a virtual aero engine without the need to have a real one. The cost implications are considerable because not only is it way more cost-efficient to use a virtual engine but the risk of damage or harm is greatly reduced as well.
And a whole class of trainees can simultaneously work on the virtual model of an engine and see it in all the detail they need to fully understand it. Its operation can be simulated so that students can even be inside the engine as it is working. This is impossible in real-life and takes learning experience to a new level.
Currently Dassault Systèmes is partnering with thousands of educational establishments and courses at all levels including 40 British universities where design, architecture and engineering are benefitting from the universal language of 3D. Across the world up to 5 million students currently encounter our digital simulation capabilities based on the 3DEXPERIENCE platform as part of their education programme.
One project in a school for young engineers uses stereoscopic 3D visualisations of a car, a motorbike and a vintage vehicle to immerse students in the virtual world where they can understand and envisage theoretical concepts in way that makes it fun and engaging to learn. Based on Dassault Systèmes digitised 3D models students are encouraged to use their new skills to learn from and then apply what they have learned using these models again. So far, secondary education students have created virtual representations including a design for a fishing reel, a mixer, a land speed record beating vehicle, and a mechanical hand. These have been developed in the virtual world where anything is possible and learning is as exciting as it gets.
Home Work
Using virtual content and VR hardware allows students to work on their projects at a distance from their place of education – to effectively take the lesson away and work on that aero engine or any other project at home. This means students can develop their studies and overcome weaknesses in the same environment that they were using at school, college or work. Just like gaming they achieve instant feedback and rewards while moving up to the next level.
Training for work uses the same approach: to create virtual environments where people can experience dangerous and hazardous activities – without any risk to themselves or others. Setting up a nuclear power station, a deep mine or an oil refinery with its full detail in the virtual world means people can learn processes and practice safely as many times as they need to while gaining the confidence and experience required to operate in the real world.
This kind of training lets people experience virtually any event such a leak, a flood or a fire while learning how to deal with it. Developing digital content is educational itself since students work on industry leading design simulation application such as SOLIDWORKS. The development of virtual worlds brings together many different disciplines each of which learns about the others through collaboration. This in turn leads to innovation as departments, subjects and ideas merge.
Life Force
In medicine Dassault Systèmes showcased with the Living Heart Project how 3D modelling revolutionises personalised therapies: based on the patient data, a virtual heart is created that gives medical professionals the opportunity to simulate its specific activities as well as the operation of blood, nerves, stents and pacemakers. This is a major advance for doctors, surgeons and device manufacturers who can at last see the individual heart and its malfunctions – virtually and from within.
This and many other projects show how ´things´ work, how they interconnect and how it is possible to transition between the virtual and the real world that is benefitting both. Portable devices let the work be taken anywhere so people can remind and update themselves whenever they need to. The cost and time savings as well as the educational benefits are significant and carry on through the whole of life.
Even subjects beyond STEM can benefit greatly from virtual worlds. History can be re-created and brought back to life, physical and social geography modelled, creatures virtually re-animated. The introduction of AI (Artificial Intelligence) could be used to simulate a board room, a courtroom or any other encounter.
Companies from the automotive industry for instance are addressing their customers using their own virtual worlds: Small physical retail spaces can virtually demonstrate huge ranges of products such as vehicles and furniture with all options being available while potential buyers are able to individualise and experience their product as never before.
The low cost and speed of creating and deploying virtual worlds for education means that in India for example using VR has become part of the Digital India and Skills India programmes that include thousands of training partners and up to 55 million students who learn and train to outdistance the rest of the world towards the dream of making India the skills capital of the world.
There has been a revolution in the past few years with advanced software applications and hardware technologies becoming available to ´anyone´. The next years will see that more and more people are educated in a variety of ways using virtual worlds to see and experience the real world and study in new, more comprehensive ways. Its power to teach is well proven while its educational and training potentials are literally unlimited.
Dassault Systemes and DS Automobiles, both part of the Dassault Group, have introduced the Virtual Garage, a type of immersive virtual reality (VR) experience for its vehicles using its 3DEXPERIENCE platform.
DS Automobiles is using the Virtual Garage to showcase the DS 7 Crossback range of SUVs at the Geneva International Motor Show. Attendees can get to grips with the DS 7 Crossback La Première by donning a HTC Vive headset, which will allow the company to explore both the interior and exterior of the car. The VR version will be alongside the real-life car, allowing for a direct comparison.
After the motor show, DS Automobiles will roll out the virtual garage technology to its network of showrooms across Europe, allowing customers to choose and configure their car in VR, allowing them to pick options such as colour, trim and equipment.
“Effective vehicle sales and marketing help complete a circle that first began with ideation and design,” said Olivier Sappin, Vice President, Transportation & Mobility Industry, Dassault Systèmes. “The 3DEXPERIENCE platform lets automotive brands differentiate themselves and reinvent the event and showroom experiences by infusing gamification, virtual reality, interaction and discovery, as well as real-time consumer tastes and preferences, into the discovery and purchase processes, even before a vehicle is physically available.”
The Dassault Group has engaged with VR technologies before, such as using VR headsets combined with CAD drawings to aid new aircraft mechanics in learning how to maintain the Dassault Aviation line of business jets.
VRFocus will continue to bring you news on VR use in transport and commerce.