Apple’s entry into augmented reality is gathering pace at an amazing rate, says one of its vice-presidents visiting Australia.
In an interview with The Australian yesterday, Apple vice-president of product marketing Greg “Joz” Joswiak said the enthusiasm of Apple’s development community building augmented reality (AR) applications had been “unbelievable”.
“They’ve built everything from virtual tape measures (to) ballerinas made out of wood dancing on floors. It’s absolutely incredible what people are doing in so little time.”
He said in the commercial space, AR applications would evolve for shopping, furniture placement, education, training and services.
Excerpt: Imagine being surrounded by a world of ghosts, things that aren’t there unless you look hard enough, and in the right way. With augmented reality technology, that’s possible—and museums are using it to their advantage. With augmented reality, museums are superimposing ther virtual world right over what’s actually in front of you, bringing exhibits and artifacts to life in new ways.
These five spots are great examples of how augmented reality is enhancing the museum experience.
Winner takes all— from by Michael Moe, Luben Pampoulov, Li Jiang, Nick Franco, & Suzee Han
We did a lot of things that seemed crazy at the time. Many of those crazy things now have over a billion users, like Google Maps, YouTube, Chrome, and Android.
— Larry Page, CEO, Alphabet
Excerpt:
An alphabet is a collection of letters that represent language. Alphabet, accordingly, is a collection of companies that represent the many bets Larry Page is making to ensure his platform is built to not only survive, but to thrive in a future defined by accelerating digital disruption. It’s an “Alpha” bet on a diversified platform of assets.
If you look closely, the world’s top technology companies are making similar bets.
Technology in general and the Internet in particular is all about a disproportionate gains to the leader in a category. Accordingly, as technology leaders like Facebook, Alphabet, and Amazon survey the competitive landscape, they have increasingly aimed to develop and acquire emerging technology capabilities across a broad range of complementary categories.
Australian Library Design Awards 2017 — from The Australian Library and Information Association has announced the five winners of its inaugural Library Design Awards at its conference in Melbourne.
Excerpt:
Thirty-three stunning libraries were entered in the awards and there is a winner in each category: public, school, academic and special libraries all feature in the entries.
The Australian Library Design Awards were created to showcase the best in contemporary library interiors and exteriors in Australia, and to celebrate the investment in libraries made by Australia’s institutions, corporations, local, state and territory governments.
SYDNEY, June 12, 2017 /PRNewswire/ — Lingmo International, an Australian technology start-up, has today launched Translate One2One, an earpiece powered by IBM Watson that can efficiently translate spoken conversations within seconds, being the first of its kind to hit global markets next month.
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Unveiled at last week’s United Nations Artificial Intelligence (AI) for Good Summit in Geneva, Switzerland, the Translate One2One earpiece supports translations across English, Japanese, French, Italian, Spanish, Brazilian Portuguese, German and Chinese. Available to purchase today for delivery in July, the earpiece carries a price tag of $179 USD, and is the first independent translation device that doesn’t rely on Bluetooth or Wi-Fi connectivity.
Lingmo International, an Australian technology start-up, has today launched Translate One2One, an earpiece powered by IBM Watson that can efficiently translate spoken conversations within seconds.
From DSC: How much longer before this sort of technology gets integrated into videoconferencing and transcription tools that are used in online-based courses — enabling global learning at a scale never seen before? (Or perhaps NLP-based tools are already being integrated into global MOOCs and the like…not sure.) It would surely allow for us to learn from each other in a variety of societies throughout the globe.
The University of Melbourne is all set to become the first Australian institution to trial blockchain technology.
Last week, the university announced that it is teaming up with Learning Machine, a US-based company associated with the Massachusetts Institute of Technology (MIT) Media Lab, to pilot a blockchain based micro-credentialing system, which will enable employers to verify those credentials quickly.
Speaking at the annual meeting of a data portability consortium in Melbourne last week, Pro Vice-Chancellor (Teaching and Learning) Professor Gregor Kennedy said the decision to pilot Learning Machine’s blockchain platform for micro-credentialing is based on supporting new types of learning recognition that are increasingly being demanded by students and employers in a globalised, digital world.
In five years, anyone could put on a pair of augmented reality glasses and know how to work a factory, an augmented reality company claims.
Los Angeles based company Daqri International recently released its ‘smart glasses’ for factory floor staff.
Daqri general manager Paul Sweeney said that when the technology became mainstream, it would get rid of engineering education.
“In the next five years or so we will probably not have classroom training, they will just have training on their head, on the job.” … Auckland based Fisher & Paykel Production Machinery (PML) has taken to the trend and added augmented reality tasks to its factory’s maintenance system.
PML industry 4.0 technology manager John West said it made its unskilled factory floor workers “instant experts”.
Google has recently released a brand new version of Google Earth for both Chrome and Android. This new version has come with a slew of nifty features teachers can use for educational purposes with students in class. Following is a quick overview of the most fascinating features…
If you work in education, you’ll know there’s a HUGE array of applications, services, products and tools created to serve a multitude of functions in education.
Tools for teaching and learning, parent-teacher communication apps, lesson planning software, home-tutoring websites, revision blogs, SEN education information, professional development qualifications and more.
There are so many companies creating new products for education, though, that it can be difficult to keep up – especially with the massive volumes of planning and marking teachers have to do, never mind finding the time to actually teach!
So how do you know which ones are the best?
Well, as a team of people passionate about education and learning, we decided to do a bit of research to help you out.
We’ve asked some of the best and brightest in education for their opinions on the hottest EdTech of 2017. These guys are the real deal – experts in education, teaching and new tech from all over the world from England to India, to New York and San Francisco.
They’ve given us a list of 82 amazing, tried and tested tools…
From DSC: The ones that I mentioned that Giorgio included in his excellent article were:
AdmitHub – Free, Expert College Admissions Advice
Labster – Empowering the Next Generation of Scientists to Change the World
At the recent Next Generation Learning Spaces Conference, during one of the workshops, the question was asked:
What skills do your current facilities promote/develop?
A minority of workshop attendees said multidisciplinary collaboration, engagement, and creativity. One university had purposely designed and built a new ecosystem of spaces such that students had different experiences when moving into a variety of setups/rooms. Thus, they viewed this new facility as helping the students adapt to change – which was one of the characteristics and skills they wanted their learning spaces to facilitate in their students.
That said, most of the answers were along the lines of:
listening
note-taking
memorization
regurgitating knowledge from lectures
Then yesterday, I ran across a tweet from Zeina Chalich (from Sydney, Australia) — and I thought to myself, now THERE’s a great list of skills that our facilities should help develop!
This is an invitation to collaborate. In particular, it is an invitation to collaborate in framing how we look at and develop machine intelligence. Even more specifically, it is an invitation to collaborate in the construction of a Periodic Table of AI.
Let’s be honest. Thinking about Artificial Intelligence has proven to be difficult for us. We argue constantly about what is and is not AI. We certainly cannot agree on how to test for it. We have difficultly deciding what technologies should be included within it. And we struggle with how to evaluate it.
Even so, we are looking at a future in which intelligent technologies are becoming commonplace.
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With that in mind, we propose an approach to viewing machine intelligence from the perspective of its functional components. Rather than argue about the technologies behind them, the focus should be on the functional elements that make up intelligence. By stepping away from howthese elements are implemented, we can talk about whatthey are and their roles within larger systems.
Also see this article, which contains the graphic below:
From DSC: These graphics are helpful to me, as they increase my understanding of some of the complexities involved within the realm of artificial intelligence.
Employment services business SEEK has begun using machine learning and artificial intelligence to send its users more relevant job advertisements and alerts.
Across its network, which includes Australia, Brazil, Malaysia, Mexico and China among others, SEEK’s machine learning algorithm has made more than 2.5 billion recommendations to jobseekers.
From DSC: With Microsoft investing heavily in AI and with its purchase of LinkedIn (who had already purchased Lynda.com the year before), I’m wondering what Microsoft will be offering along these lines. With AI, #blockchain and other new forms of credentialing, finding work could be very different in the future.
The Lounge, enabled by Samsung on November 8, 2016 in Sydney, Australia. (Photo by Anna Kucera)
The Lounge, enabled by Samsung on November 8, 2016 in Sydney, Australia. (Photo by Anna Kucera)
Also see:
The Lounge enabled by Samsung Open day and night, The Lounge enabled by Samsung is a new place in the heart of the Opera House where people can sit and enjoy art and culture through the latest technology. The most recent in a series of future-facing projects enabled by Sydney Opera House’s Principal Partner, Samsung, the new visitor lounge features stylish, comfortable seating, as well as interactive displays and exclusive digital content, including:
The Sails – a virtual-reality experience of what it’s like to stand atop the sails of Australia’s most famous building, brought to you via Samsung Gear VR;
Digital artwork – a specially commissioned video exploration of the Opera House and its stories, produced by creative director Sam Doust. The artwork has been themed to match the time of day and is the first deployment of Samsung’s latest Smart LED Display panel technology in Australia; and
Google Cultural Institute – available to view on Samsung Galaxy View and Galaxy Tab S2 tablets, the digital collection features 50 online exhibits that tell the story of the Opera House’s past, present and future through rare archival photography, celebrated performances, early architectural drawings and other historical documents, little-known interviews and Street View imagery.
“Every child is a genius in his or her own way. VR can be the key to awakening the genius inside.”
This is the closing line of a new research study currently making its way out of China. Conducted by Beijing Bluefocus E-Commerce Co., Ltd and Beijing iBokan Wisdom Mobile Internet Technology Training Institution, the study takes a detailed look at the different ways virtual reality can make public education more effective.
“Compared with traditional education, VR-based education is of obvious advantage in theoretical knowledge teaching as well as practical skills training. In theoretical knowledge teaching, it boasts the ability to make abstract problems concrete, and theoretical thinking well-supported. In practical skills training, it helps sharpen students’ operational skills, provides an immersive learning experience, and enhances students’ sense of involvement in class, making learning more fun, more secure, and more active,” the study states.
CALIFORNIA — Acer Starbreeze, Google, HTC VIVE, Facebook’s Oculus, Samsung, and Sony Interactive Entertainment [on 12/7/16] announced the creation of a non-profit organization of international headset manufacturers to promote the growth of the global virtual reality (VR) industry. The Global Virtual Reality Association (GVRA) will develop and share best practices for industry and foster dialogue between public and private stakeholders around the world.
The goal of the Global Virtual Reality Association is to promote responsible development and adoption of VR globally. The association’s members will develop and share best practices, conduct research, and bring the international VR community together as the technology progresses. The group will also serve as a resource for consumers, policymakers, and industry interested in VR.
VR has the potential to be the next great computing platform, improving sectors ranging from education to healthcare, and contribute significantly to the global economy. Through research, international engagement, and the development of best practices, the founding companies of the Global Virtual Reality Association will work to unlock and maximize VR’s potential and ensure those gains are shared as broadly around the world as possible.
Occipital announced today that it is launching a mixed reality platform built upon its depth-sensing technologies called Bridge. The headset is available for $399 and starts shipping in March; eager developers can get their hands on an Explorer Edition for $499, which starts shipping next week.
From DSC: While I hope that early innovators in the AR/VR/MR space thrive, I do wonder what will happen if and when Apple puts out their rendition/version of a new form of Human Computer Interaction (or forms) — such as integrating AR-capabilities directly into their next iPhone.
Enterprise augmented reality applications ready for prime time — from internetofthingsagenda.techtarget.com by Beth Stackpole Pokémon Go may have put AR on the map, but the technology is now being leveraged for enterprise applications in areas like marketing, maintenance and field service.
Excerpt:
Unlike virtual reality, which creates an immersive, computer-generated environment, the less familiar augmented reality, or AR, technology superimposes computer-generated images and overlays information on a user’s real-world view. This computer-generated sensory data — which could include elements such as sound, graphics, GPS data, video or 3D models — bridges the digital and physical worlds. For an enterprise, the applications are boundless, arming workers walking the warehouse or selling on the shop floor, for example, with essential information that can improve productivity, streamline customer interactions and deliver optimized maintenance in the field.
2016 is fast drawing to a close. And while many will be glad to see the back of it, for those of us who work and play with Virtual Reality, it has been a most exciting year.
By the time the bells ring out signalling the start of a new year, the total number of VR users will exceed 43 million. This is a market on the move, projected to be worth $30bn by 2020. If it’s to meet that valuation, then we believe 2017 will be an incredibly important year in the lifecycle of VR hardware and software development.
VR will be enjoyed by an increasingly mainstream audience very soon, and here we take a quick look at some of the trends we expect to develop over the next 12 months for that to happen.
IN an Australian first, education students will be able hone their skills without stepping foot in a classroom. Murdoch University has hosted a pilot trial of TeachLivE, a virtual reality environment for teachers in training.
The student avatars are able to disrupt the class in a range of ways that teachers may encounter such as pulling out mobile phones or losing their pen during class.
8 Cutting Edge Virtual Reality Job Opportunities— from appreal-vr.com by Yariv Levski Today we’re highlighting the top 8 job opportunities in VR to give you a current scope of the Virtual Reality job market.
The Epson Moverio BT-300, to give the smart glasses their full name, are wearable technology – lightweight, comfortable see-through glasses – that allow you to see digital data, and have a first person view (FPV) experience: all while seeing the real world at the same time. The applications are almost endless.
Volkswagen’s pivot away from diesel cars to electric vehicles is still a work in progress, but some details about its coming I.D. electric car — unveiled in Paris earlier this year — are starting to come to light. Much of the news is about an innovative augmented reality heads-up display Volkswagen plans to offer in its electric vehicles. Klaus Bischoff, head of the VW brand, says the I.D. electric car will completely reinvent vehicle instrumentation systems when it is launched at the end of the decade.
For decades, numerous research centers and academics around the world have been working the potential of virtual reality technology. Countless research projects undertaken in these centers are an important indicator that everything from health care to real estate can experience disruption in a few years.
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Virtual Human Interaction Lab — Stanford University
Virtual Reality Applications Center — Iowa State University
Institute for Creative Technologies—USC
Medical Virtual Reality — USC
The Imaging Media Research Center — Korea Institute of Science and Technology
Virtual Reality & Immersive Visualization Group — RWTH Aachen University
Center For Simulations & Virtual Environments Research — UCIT
Duke immersive Virtual Environment —Duke University
Experimental Virtual Environments (EVENT) Lab for Neuroscience and Technology — Barcelona University
Immersive Media Technology Experiences (IMTE) — Norwegian University of Technology
Human Interface Technology Laboratory — University of Washington
Augmented Reality (AR) dwelled quietly in the shadow of VR until earlier this year, when a certain app propelled it into the mainstream. Now, AR is a household term and can hold its own with advanced virtual technologies. The AR industry is predicted to hit global revenues of $90 billion by 2020, not just matching VR but overtaking it by a large margin. Of course, a lot of this turnover will be generated by applications in the entertainment industry. VR was primarily created by gamers for gamers, but AR began as a visionary idea that would change the way that humanity interacted with the world around them. The first applications of augmented reality were actually geared towards improving human performance in the workplace… But there’s far, far more to be explored.
I stood at the peak of Mount Rainier, the tallest mountain in Washington state. The sounds of wind whipped past my ears, and mountains and valleys filled a seemingly endless horizon in every direction. I’d never seen anything like it—until I grabbed the sun.
Using my HTC Vive virtual reality wand, I reached into the heavens in order to spin the Earth along its normal rotational axis, until I set the horizon on fire with a sunset. I breathed deeply at the sight, then spun our planet just a little more, until I filled the sky with a heaping helping of the Milky Way Galaxy.
Virtual reality has exposed me to some pretty incredible experiences, but I’ve grown ever so jaded in the past few years of testing consumer-grade headsets. Google Earth VR, however, has dropped my jaw anew. This, more than any other game or app for SteamVR’s “room scale” system, makes me want to call every friend and loved one I know and tell them to come over, put on a headset, and warp anywhere on Earth that they please.
In VR architecture, the difference between real and unreal is fluid and, to a large extent, unimportant. What is important, and potentially revolutionary, is VR’s ability to draw designers and their clients into a visceral world of dimension, scale, and feeling, removing the unfortunate schism between a built environment that exists in three dimensions and a visualization of it that has until now existed in two.
Many of the VR projects in Architecture are focused on the final stages of design process, basically for selling a house to a client. Thomas sees the real potential in the early stages: when the main decisions need to be made. VR is so good for this, as it helps for non professionals to understand and grasp the concepts of architecture very intuitively. And this is what we talked mostly about.
A proposed benefit of virtual reality is that it could one day eliminate the need to move our fleshy bodies around the world for business meetings and work engagements. Instead, we’ll be meeting up with colleagues and associates in virtual spaces. While this would be great news for the environment and business people sick of airports, it would be troubling news for airlines.
Imagine during one of your future trials that jurors in your courtroom are provided with virtual reality headsets, which allow them to view the accident site or crime scene digitally and walk around or be guided through a 3D world to examine vital details of the scene.
How can such an evidentiary presentation be accomplished? A system is being developed whereby investigators use a robot system inspired by NASA’s Curiosity Mars rover using 3D imaging and panoramic videography equipment to record virtual reality video of the scene.6 The captured 360° immersive video and photographs of the scene would allow recreation of a VR experience with video and pictures of the original scene from every angle. Admissibility of this evidence would require a showing that the VR simulation fairly and accurately depicts what it represents. If a judge permits presentation of the evidence after its accuracy is established, jurors receiving the evidence could turn their heads and view various aspects of the scene by looking up, down, and around, and zooming in and out.
Unlike an animation or edited video initially created to demonstrate one party’s point of view, the purpose of this type of evidence would be to gather data and objectively preserve the scene without staging or tampering. Even further, this approach would allow investigators to revisit scenes as they existed during the initial forensic examination and give jurors a vivid rendition of the site as it existed when the events occurred.
The theme running throughout most of this year’s WinHEC keynote in Shenzhen, China was mixed reality. Microsoft’s Alex Kipman continues to be a great spokesperson and evangelist for the new medium, and it is apparent that Microsoft is going in deep, if not all in, on this version of the future. I, for one, as a mixed reality or bust developer, am very glad to see it.
As part of the presentation, Microsoft presented a video (see below) that shows the various forms of mixed reality. The video starts with a few virtual objects in the room with a person, transitions into the same room with a virtual person, then becomes a full virtual reality experience with Windows Holographic.
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