The gigantic list of augmented reality use cases — from uploadvr.com by Sarah Downey

Excerpt:

This gigantic list of future AR use cases should get you reeling with the possibilities. Although most of these are future applications, they’ll arrive within the next 10 to 15 years. Let’s make this a living document: if I missed a major use of AR, comment below and I’ll add it.

Three quick notes before we start. First, let’s clarify the difference between AR and VR.

VR blocks out the real world and immerses the user in a digital experience.

If you’re putting on a headset in your living room and suddenly transported to a zombie attack scenario, that’s VR.

AR adds digital elements on top of the real world.

If you’re walking down the street in real life and a Dragonite pops up on the sidewalk, that’s AR.

AR is more focused on bridging digital and physical spaces. It accompanies you as you move through the world and augments your activities with information, whereas you typically step out of that world to immerse yourself in VR. When we talk about AR headsets, they’re big helmet-like visors now, but they’re heading toward normal-looking glasses and ultimately contact lenses.

Third, AR and VR are converging into the same thing. Our ability to tell what’s “real” and not digital will decrease as graphics get increasingly better. An AR sign outside a building could be as real and as significant as a physical one if everyone is using AR tech, everyone sees it when they walk by, and it is persistent in that location. Ultimately, we’ll have hardware that lets us switch between AR and VR modes, with less and more opacity for the context. We’re discussing AR and VR distinctly for now because they’re developing separately and on different timelines.

 

 

 

 

 

 

Augmented Reality: Top 100 Influencers and Brands — from onalytica.com

topbrandsar-2016

 

 

Augmented reality is going from ‘Pokémon Go’ to the factory floor — from businessinsider.com by Matt Weinberger

Excerpt:

That data, readily available from other sources, is just the tip of the iceberg, though, Campbell says. It also overlays a graphic showing how the pieces fit together, how to disassemble it, and what other pieces of the machine that part might connect to. It combines the physical world of the machine part with the digital world of the IoT-gleaned info.

Just being able to look at a machine, and say, yes, this is the one that needs work, and this is the work that needs doing, can vastly improve the speed with which work gets done, and thus operational efficiency of the whole enterprise.

“There’s so much value in visualizing information,” Campbell says.

 

 

 

Virtual Reality Changes Global Engineering Schools — from by Ilana Kowarski
Engineering professors say virtual reality contributes to the student experience.

Excerpt:

At engineering schools throughout the world, professors are turning to virtual reality technology in the classroom.

The technology provides 3-D visuals that help engineering students improve their designs, alerting them to flaws before the building process starts.

Engineering schools are researching technologies that could transform the way people communicate and interact by – for instance – allowing people to visit one another in a virtual space if they can’t meet in person. Engineering schools are also exploring medical applications of virtual reality that could save lives, such as 3-D X-rays that allow doctors to peer inside the bodies of patients.

Some engineering schools are taking virtual reality lessons a step further and challenging students to develop new virtual reality programs.

 

 

 

 

 

Broward Students Learning Through Augmented Reality — from nbcmiami.com by Ari Odzer

Excerpt:

We hear about technology’s impact on education all the time. Usually, that means computers, new apps, or 3D printers. Now there’s a new tool that has the promise of revolution, the potential for creating a new paradigm in how students learn. It’s called augmented reality.

 

 

Augmented Reality And Kinect Create Unique Art Experience At Cleveland Museum — from forbes.com by Jennifer Hicks

 

 

 



Addendum on 11/1/16:

 



 

 

 

 

Some reflections/resources on today’s announcements from Apple

tv-app-apple-10-27-16

 

tv-app2-apple-10-27-16

From DSC:
How long before recommendation engines like this can be filtered/focused down to just display apps, channels, etc. that are educational and/or training related (i.e., a recommendation engine to suggest personalized/customized playlists for learning)?

That is, in the future, will we have personalized/customized playlists for learning on our Apple TVs — as well as on our mobile devices — with the assessment results of our taking the module(s) or course(s) being sent in to:

  • A credentials database on LinkedIn (via blockchain)
    and/or
  • A credentials database at the college(s) or university(ies) that we’re signed up with for lifelong learning (via blockchain)
    and/or
  • To update our cloud-based learning profiles — which can then feed a variety of HR-related systems used to find talent? (via blockchain)

Will participants in MOOCs, virtual K-12 schools, homeschoolers, and more take advantage of learning from home?

Will solid ROI’s from having thousands of participants paying a smaller amount (to take your course virtually) enable higher production values?

Will bots and/or human tutors be instantly accessible from our couches?

Will we be able to meet virtually via our TVs and share our computing devices?

 

bigscreen_rocket_league

 

The Living [Class] Room -- by Daniel Christian -- July 2012 -- a second device used in conjunction with a Smart/Connected TV

 

 

 


Other items on today’s announcements:


 

 

macbookpro-10-27-16

 

 

All the big announcements from Apple’s Mac event — from amp.imore.com by Joseph Keller

  • MacBook Pro
  • Final Cut Pro X
  • Apple TV > new “TV” app
  • Touch Bar

 

Apple is finally unifying the TV streaming experience with new app — from techradar.com by Nick Pino

 

 

How to migrate your old Mac’s data to your new Mac — from amp.imore.com by Lory Gil

 

 

MacBook Pro FAQ: Everything you need to know about Apple’s new laptops — from amp.imore.com by Serenity Caldwell

 

 

Accessibility FAQ: Everything you need to know about Apple’s new accessibility portal — from imore.com by Daniel Bader

 

 

Apple’s New MacBook Pro Has a ‘Touch Bar’ on the Keyboard — from wired.com by Brian Barrett

 

 

Apple’s New TV App Won’t Have Netflix or Amazon Video — from wired.com by Brian Barrett

 

 

 

 

Apple 5th Gen TV To Come With Major Software Updates; Release Date Likely In 2017 — from mobilenapps.com

 

 

 

 

These VR apps are designed to replace your office and daily commute — from uploadvr.com by David Matthews

Excerpt:

Eric Florenzano is a VR consultant and game designer who lives in the San Francisco Bay area. He is currently working on new game ideas with a small team spread out across the US.

So far, so normal, right?. But what you don’t know is that Florenzano is one of a handful of advocates pioneering something they claim could transform work, end commuting, and even lead to a mass exodus from large cities: the virtual office.

“There’s no physical office [for us.] It’s all virtual. That’s the crazy thing,” explains Florenzano. Rather than meeting in person or arranging a conference call, his team jumps into Bigscreen, which allows users, who are represented by floating heads and controllers, to share their monitors in virtual rooms.

 

uploadvrimage-oct2016

 

Also see:

 

bigscreen_rocket_league

 

 

How to train thousands of surgeons at the same time in virtual reality — from singularity.com by Sveta McShane

Excerpt:

Recently, I wrote about how the future of surgery is going to be robotic, data-driven and artificially intelligent.

Although it’s approaching fast, that future is still in the works. In the meantime, there is a real need to train surgeons in a more scalable way, according to Dr. Shafi Ahmed, a surgeon at the Royal London and St. Bartholomew’s hospitals and cofounder of Medical Realities, a company developing a new virtual reality platform for surgical training.

In April of 2016, he live-streamed a cancer surgery in virtual reality. The procedure, a low-risk removal of a colon tumor in a man in his 70s, was filmed in 360 video and streamed live across the world. The high-def 4K camera captured the doctors’ every movement, and those watching could see everything that was happening in immersive detail.

 

 

Duke neurosurgeons test Hololens as an AR assist on tricky procedures — from techcrunch.com by Devin Coldewey,

Excerpt:

“Since we can manipulate a hologram without actually touching anything, we have access to everything we need without breaking a sterile field. In the end, this is actually an improvement over the current OR system because the image is directly overlaid on the patient, without having to look to computer screens for aid,” said Cutler in a Duke news release.

 

 

OTOY Enables Groundbreaking VR Social Features — from uploadvr.com

Excerpt:

Oculus and OTOY may have achieved a breakthrough in social VR functionality.

VR headset owners should soon be able to share a variety of environments and Web-based content with one another in virtual reality. For example, friends can feel like they are together on the bridge of the Enterprise, and on the viewscreen of the ship they see a list of Star Trek episodes to watch with one another.

We have yet to test all of this functionality first-hand, but we’ve seen some of it live in the Gear VR — accessing, for example, a Star Trek environment inside OTOY’s ORBX Media Player app from within the Oculus Social Beta.

 

 

 

 

VR just got a lot more stylish with the Dlodlo V1 Glasses — from seriouswonder.com by B.J. Murphy

 

dlodlovr-glasses-oct2016

 

 

Microsoft CEO says mixed reality is the ‘ultimate computer’ — from engadget.com by Nicole Lee
The company’s goal is to “invent new computers and new computing.”

Excerpt:

“Whether it be HoloLens, mixed reality, or Surface, our goal is to invent new computers and new computing,” he added. This also includes investing in artificial intelligence, which is now its own group within the company.

Nadella admitted that for a long time, Microsoft was complacent. “Early success is probably the worst thing that can happen in life,” he said. But now, he wants Microsoft to be more of a “learn-it-all” culture rather than a “know-it-all” culture.

 

 

A Chinese Lens on Augmented, Virtual and Mixed Reality — from adage.com by David Berkowitz

Excerpt:

These networks keep growing. One of the hosts of the conference, ARinChina, brought me over along with a group of about a half-dozen Westerners. This media company connects a community of 60,000 developers, all of whom are invested in staying ahead of breakthrough technologies like virtual reality (VR), augmented reality (AR) and the hybrid known as mixed reality (MR). The AR track where I presented was hosted by RAVV, a new technology think tank that is pulling together subject matter experts across robotics, artificial intelligence, autonomous vehicles, VR and AR. RAVV is building an international ecosystem that includes its own approaches for startup incubation, knowledge sharing and other collaborative endeavors.

To get a sense of how global the emerging mixed reality field is, consider that, in February, China’s e-commerce giant Alibaba led the $800 million Series C round for Florida-based Magic Leap, an MR startup. As our daily reality becomes more virtual and augmented, it doesn’t matter where someone is on the map. This field is connecting far-flung practitioners, hinting at a time, soon, when AR, VR and MR will connect people in ways never before possible.

 

 


Addendum 10/25/16:

 

 

 

From DSC:
The other day I had posted some ideas in regards to how artificial intelligence, machine learning, and augmented reality are coming together to offer some wonderful new possibilities for learning (see: “From DSC: Amazing possibilities coming together w/ augmented reality used in conjunction w/ machine learning! For example, consider these ideas.”) Here is one of the graphics from that posting:

 

horticulturalapp-danielchristian

These affordances are just now starting to be uncovered as machines are increasingly able to ascertain patterns, things, objects…even people (which calls for a separate posting at some point).

But mainly, for today, I wanted to highlight an excellent comment/reply from Nikos Andriotis @ Talent LMS who gave me permission to highlight his solid reflections and ideas:

 

nikosandriotisidea-oct2016

https://www.talentlms.com/blog/author/nikos-andriotis

 

From DSC:
Excellent reflection/idea Nikos — that would represent some serious personalized, customized learning!

Nikos’ innovative reflections also made me think about his ideas in light of their interaction or impact with web-based learner profiles, credentialing, badging, and lifelong learning.  What’s especially noteworthy here is that the innovations (that impact learning) continue to occur mainly in the online and blended learning spaces.

How might the ramifications of these innovations impact institutions who are pretty much doing face-to-face only (in terms of their course delivery mechanisms and pedagogies)?

Given:

  • That Microsoft purchased LinkedIn and can amass a database of skills and open jobs (playing a cloud-based matchmaker)
  • Everyday microlearning is key to staying relevant (RSS feeds and tapping into “streams of content” are important here, and so is the use of Twitter)
  • 65% of today’s students will be doing jobs that don’t even exist yet (per Microsoft & The Future Laboratory in 2016)

 

futureproofyourself-msfuturelab-2016

  • The exponential pace of technological change
  • The increasing level of experimentation with blockchain (credentialing)
  • …and more

…what do the futures look like for those colleges and universities that operate only in the face-to-face space and who are not innovating enough?

 

 

 

From DSC:
Consider the affordances that we will soon be experiencing when we combine machine learning — whereby computers “learn” about a variety of things — with new forms of Human Computer Interaction (HCI) — such as Augment Reality (AR)

The educational benefits — as well as the business/profit-related benefits will certainly be significant!

For example, let’s create a new mobile app called “Horticultural App (ML)” * — where ML stands for machine learning. This app would be made available on iOS and Android-based devices. (Though this is strictly hypothetical, I hope and pray that some entrepreneurial individuals and/or organizations out there will take this idea and run with it!)

 


Some use cases for such an app:


Students, environmentalists, and lifelong learners will be able to take some serious educationally-related nature walks once they launch the Horticultural App (ML) on their smartphones and tablets!

They simply hold up their device, and the app — in conjunction with the device’s camera — will essentially take a picture of whatever the student is focusing in on. Via machine learning, the app will “recognize” the plant, tree, type of grass, flower, etc. — and will then present information about that plant, tree, type of grass, flower, etc.

 

girl
Above image via shutterstock.com

 

horticulturalapp-danielchristian

 

In the production version of this app, a textual layer could overlay the actual image of the tree/plant/flower/grass/etc.  in the background — and this is where augmented reality comes into play. Also, perhaps there would be an opacity setting that would be user controlled — allowing the learner to fade in or fade out the information about the flower, tree, plant, etc.

 

horticulturalapp2-danielchristian

 

Or let’s look at the potential uses of this type of app from some different angles.

Let’s say you live in Michigan and you want to be sure an area of the park that you are in doesn’t have any Eastern Poison Ivy in it — so you launch the app and review any suspicious looking plants. As it turns out, the app identifies some Eastern Poison Ivy for you (and it could do this regardless of which season we’re talking about, as the app would be able to ascertain the current date and the current GPS coordinates of the person’s location as well, taking that criteria into account).

 

easternpoisonivy

 

 

Or consider another use of such an app:

  • A homeowner who wants to get rid of a certain kind of weed.  The homeowner goes out into her yard and “scans” the weed, and up pops some products at the local Lowe’s or Home Depot that gets rid of that kind of weed.
  • Assuming you allowed the app to do so, it could launch a relevant chatbot that could be used to answer any questions about the application of the weed-killing product that you might have.

 

Or consider another use of such an app:

  • A homeowner has a diseased tree, and they want to know what to do about it. The machine learning portion of the app could identify what the disease was and bring up information on how to eradicate it.
  • Again, if permitted to do so, a relevant chatbot could be launched to address any questions that you might have about the available treatment options for that particular tree/disease.

 

Or consider other/similar apps along these lines:

  • Skin ML (for detecting any issues re: acme, skin cancers, etc.)
  • Minerals and Stones ML (for identifying which mineral or stone you’re looking at)
  • Fish ML
  • Etc.

fish-ml-gettyimages

Image from gettyimages.com

 

So there will be many new possibilities that will be coming soon to education, businesses, homeowners, and many others to be sure! The combination of machine learning with AR will open many new doors.

 


*  From Wikipedia:

Horticulture involves nine areas of study, which can be grouped into two broad sections: ornamentals and edibles:

  1. Arboriculture is the study of, and the selection, plant, care, and removal of, individual trees, shrubs, vines, and other perennial woody plants.
  2. Turf management includes all aspects of the production and maintenance of turf grass for sports, leisure use or amenity use.
  3. Floriculture includes the production and marketing of floral crops.
  4. Landscape horticulture includes the production, marketing and maintenance of landscape plants.
  5. Olericulture includes the production and marketing of vegetables.
  6. Pomology includes the production and marketing of pome fruits.
  7. Viticulture includes the production and marketing of grapes.
  8. Oenology includes all aspects of wine and winemaking.
  9. Postharvest physiology involves maintaining the quality of and preventing the spoilage of plants and animals.

 

 

 

 

9 Best Augmented Reality Smart Glasses 2016 — from appcessories.co.uk

Excerpt:

2016 has been promoted as the year of virtual reality. In the space of a few months, we have seen brands like Facebook, Samsung and Sony have all come out with VR products of their own. But another closely related industry has been making a growing presence in the tech industry. Augmented reality, or simply AR, is gaining ground among tech companies and even consumers. Google was the first contender for coolest AR product with its Google Glass. Too bad that did not work out; it felt like a product too ahead of its time. Companies like Microsoft, Magic Leap and even Apple are hoping to pick up from where Google left off. They are creating their own smart glasses that will, hopefully, do better than Google Glass. In our article, we look at some of the coolest Augmented Reality smart glasses around.

Some of them are already out while others are in development.

 

 

The holy grail of Virtual Reality: A complete suspension of disbelief — from labster.com by Marian Reed

Excerpt:

It’s no secret that we here at Labster are pretty excited about VR.  However, if we are to successfully introduce VR into education and training we need to know how to create VR simulations that unlock these new great ways of learning.

 

 

 

 

Computer science researchers create augmented reality education tool — from ucalgary.ca by Erin Guiltenane

Excerpt (emphasis DSC):

Christian Jacob and Markus Santoso are trying to re-create the experience of the aforementioned agents in Fantastic Voyage. Working with 3D modelling company Zygote, they and recent MSc graduate Douglas Yuen have created HoloCell, an educational software. Using Microsoft’s revolutionary HoloLens AR glasses, HoloCell provides a mixed reality experience allowing users to explore a 3D simulation of the inner workings, organelles, and molecules of a healthy human cell.

 

holocell-sept2016

 

 

 

Upload, Google, HTC and Udacity join forces for new VR education program — from  uploadvr.com

Excerpt:

Upload is teaming up with Udacity, Google and HTC to build an industry-recognized VR certification program.

According to Udacity representatives, the organization will now be adding a VR track to its “nanodegree”program. Udacity’s nanodegrees are certification routes that can be completed completely online at a student’s own pace. These courses typically take between 6-12 months and cost $199 per month. Students will also receive half of their tuition back if they complete a course within six months. The new VR course will follow this pattern as well.

The VR nanodegree program was curated by Udacity after the organization interviewed dozens of VR savvy companies about the type of skills they look for in a potential new hire. This information was then built into a curriculum through a joint effort between Google, HTC and Upload.

 

 

 

Virtual reality helps Germany catch last Nazi war criminals — from theguardian.com by Agence France-Presse
Lack of knowledge no longer an excuse as precise 3D model of Auschwitz, showing gas chambers and crematoria, helps address atrocities

Excerpt:

German prosecutors and police have developed 3D technology to help them catch the last living Nazi war criminals with a highly precise model of Auschwitz.

Also related to this:

Auschwitz war criminals targeted with help of virtual reality — from jpost.com by

Excerpt:

German prosecutors and police have begun using virtual reality headsets in their quest to bring the last remaining Auschwitz war criminals to justice, AFP reported Sunday.

Using the blueprints of the death camp in Nazi-occupied Poland, Bavarian state crime office digital imaging expert Ralf Breker has created a virtual reality model of Auschwitz which allows judges and prosecutors to mimic moving around the camp as it stood during the Holocaust.

 

 

 

How the UN thinks virtual reality could not only build empathy, but catalyze change, too — from yahoo.com by Lulu Chang

Excerpt:

Technology is hoping to turn empathy into action. Or at least, the United Nations is hoping to do so. The intergovernmental organization is more than seven decades old at this point, but it’s constantly finding new ways to better the world’s citizenry. And the latest tool in its arsenal? Virtual reality.

Last year, the UN debuted its United Nations Virtual Reality, which uses the technology to advocate for communities the world over. And more recently, the organization launched an app made specifically for virtual reality films.  First debuted at the Toronto International Film Festival, this app encourages folks to not only watch the UN’s VR films, but to then take action by way of donations or volunteer work.

 

 

 

Occipital Wants to Turn iPhones into Mixed Virtual Reality Headsets — from next.reality.news by Adam Dachis

Excerpt:

If you’re an Apple user and want an untethered virtual reality system, you’re currently stuck with Google Cardboard, which doesn’t hold a candle to the room scale VR provided by the HTC Vive (a headset not compatible with Macs, by the way). But spatial computing company Occipital just figured out how to use their Structure Core 3D Sensor to provide room scale VR to any smartphone headset—whether it’s for an iPhone or Android.

 

occipital-10-2-16

 

 

‘The Body VR’ Brings Educational Tour Of The Human Body To HTC Vive Today — from uploadvr.com by Jamie Feltham on October 3rd, 2016

 Excerpt:

The Body VR is a great example of how the Oculus Rift and Gear VR can be used to educate as well as entertain. Starting today, it’s also a great example of how the HTC Vive can do the same.

The developers previously released this VR biology lesson for free back at the launch of the Gear VR and, in turn, the Oculus Rift. Now an upgraded version is available on Valve and HTC’s Steam VR headset. You’ll still get the original experience in which you explore the human body, travelling through the bloodstream to learn about blood cells and looking at how organelles work. The piece is narrated as you go.

 

 

 

 

Virtual Reality Dazzles Harvard University — from universityherald.com

Excerpt:

For a moment, students were taken into another world without leaving the great halls of Harvard. Some students had a great time exploring the ocean floor and saw unique underwater animals, others tried their hand in hockey, while others screamed as they got into a racecar and sped on a virtual speedway. All of them, getting a taste of what virtual and augmented reality looks like.

All of these, of course, were not just about fun but on how especially augmented and virtual reality can transform every kind of industry. This will be discussed and demonstrated at the i-lab in the coming weeks with Rony Abovitz, CEO of Magic Leap Inc., as the keynote speaker.

Abovitz was responsible for developing the “Mixed Reality Lightfield,” a technology that combines augmented and virtual reality. According to Abovitz, it will help those who are struggling to “transfer two-dimensional information or text into “spatial learning.”

“I think it will make life easier for a lot of people and open doors for a lot of people because we are making technology fit how our brains evolved into the physics of the universe rather than forcing our brains to adapt to a more limited technology,” he added.

 

 


 

Addendum on 10/6/16:

 

 

 

ngls-2017-conference

 

From DSC:
I have attended the Next Generation Learning Spaces Conference for the past two years. Both conferences were very solid and they made a significant impact on our campus, as they provided the knowledge, research, data, ideas, contacts, and the catalyst for us to move forward with building a Sandbox Classroom on campus. This new, collaborative space allows us to experiment with different pedagogies as well as technologies. As such, we’ve been able to experiment much more with active learning-based methods of teaching and learning. We’re still in Phase I of this new space, and we’re learning new things all of the time.

For the upcoming conference in February, I will be moderating a New Directions in Learning panel on the use of augmented reality (AR), virtual reality (VR), and mixed reality (MR). Time permitting, I hope that we can also address other promising, emerging technologies that are heading our way such as chatbots, personal assistants, artificial intelligence, the Internet of Things, tvOS, blockchain and more.

The goal of this quickly-moving, engaging session will be to provide a smorgasbord of ideas to generate creative, innovative, and big thinking. We need to think about how these topics, trends, and technologies relate to what our next generation learning environments might look like in the near future — and put these things on our radars if they aren’t already there.

Key takeaways for the panel discussion:

  • Reflections regarding the affordances that new developments in Human Computer Interaction (HCI) — such as AR, VR, and MR — might offer for our learning and our learning spaces (or is our concept of what constitutes a learning space about to significantly expand?)
  • An update on the state of the approaching ed tech landscape
  • Creative, new thinking: What might our next generation learning environments look like in 5-10 years?

I’m looking forward to catching up with friends, meeting new people, and to the solid learning that I know will happen at this conference. I encourage you to check out the conference and register soon to take advantage of the early bird discounts.

 

 

10 Incredible Uses of Virtual Reality — from fortune.com by Rose Leadem
It’s not just for video games.

Excerpt:

Virtual reality technology holds enormous potential to change the future for a number of fields, from medicine, business, architecture to manufacturing.

Psychologists and other medical professionals are using VR to heighten traditional therapy methods and find effective solutions for treatments of PTSD, anxiety and social disorders. Doctors are employing VR to train medical students in surgery, treat patients’ pains and even help paraplegics regain body functions.

In business, a variety of industries are benefiting from VR. Carmakers are creating safer vehicles, architects are constructing stronger buildings and even travel agencies are using it to simplify vacation planning.

Check out these 10 amazing uses of VR.

 

 

Visit the U.K. Prime Minister’s Home in This Virtual 10 Downing Street Experience — from uploadvr.com by

Excerpt:

Google has unveiled a new interactive online exhibit that take users on a tour of 10 Downing street in London — home of the U.K. Prime Minister.

The building has served as home to countless British political leaders, from Winston Churchill and Margaret Thatcher through to Tony Blair and — as of a few months ago — Theresa May. But, as you’d expect in today’s security-conscious age, gaining access to the residence isn’t easy; the street itself is gated off from the public. This is why the 10 Downing Street exhibit may capture the imagination of politics aficionados and history buffs from around the world.

The tour features 360-degree views of the various rooms, punctuated by photos and audio and video clips.

 

 

 

Microsoft’s HoloLens Now Helps Elevator Technicians Work Smarter — from uploadvr.com by Charles Singletary

Excerpt:

In a slightly more grounded environment, the HoloLens is being used to assist technicians in elevator repairs.

Traversal via elevator is such a regular part of our lifestyles, its importance is rarely recognized…until they’re not working as they should be. ThyssenKrupp AG, one of the largest suppliers for elevators, recognizes how essential they are as well as how the simplest malfunctions can deter the lives of millions. Announced on their blog, Microsoft is partnering with Thyssenkrupp to equip 24,000 of their technicians with HoloLens.

 

 

ms-hololens-thyssenkrupp-sept2016

Insert from DSC re: the above piece re: HoloLens:

Will technical communicators need to augment their skillsets? It appears so.

 

 

 

 

Phiona: A Virtual Reality Portrait of ‘Queen of Katwe’ — from abcnews.com by Angel Canales and Adam Rivera

 

vr-queenofkatwe-2016

 

 

Get a front-row seat in Harvard’s largest class, thanks to virtual reality — from medium.freecodecamp.com by Dhawal Shah

harvard-cs50-sep2016

Intro video here: This is CS50 2016

 

 

The future of mobile video is virtual reality — from techcrunch.com by Mike Wadhera

Excerpt:

But in a world where no moment is too small to record with a mobile sensor, and one in which time spent in virtual reality keeps going up, interesting parallels start to emerge with our smartphones and headsets.

Let’s look at how the future could play out in the real world by observing three key drivers: VR video adoption, mobile-video user needs and the smartphone camera rising tide.

 

 

Now, a virtual reality programme to improve social skills in autistic kids — from cio.economictimes.indiatimes.com by
The VR training platform creates a safe place for participants to practice social situations without the intense fear of consequence.

Excerpt:

“Individuals with autism may become overwhelmed and anxious in social situations,” research clinician Dr Nyaz Didehbani said.

“The virtual reality training platform creates a safe place for participants to practice social situations without the intense fear of consequence,” said Didehbani.

The participants who completed the training demonstrated improved social cognition skills and reported better relationships, researchers said.

 

 

 


Also see:


 

 

 

 

Tech breakthroughs megatrend— from pwc.com by Vicki Huff Eckert, Sahil Bhardwaj, and Chris Curran; with thanks to Woontack Woo for this resource 

Excerpt:

Given the sheer pace and acceleration of technological advances in recent years, business leaders can be forgiven for feeling dazed and perhaps a little frustrated. When we talked to CEOs as part of our annual Global CEO Survey, 61% of them told us they were concerned about the speed of technological change in their industries. Sure, more and more C-suite executives are genuinely tech-savvy – increasingly effective champions for their companies’ IT vision – and more and more of them know that digital disruption can be friend as well as enemy. But it’s fair to say that most struggle to find the time and energy necessary to keep up with the technologies driving transformation across every industry and in every part of the world.

Not one catalyst, but several
History is littered with companies that have waited out the Next New Thing in the belief that it’s a technology trend that won’t amount to much, or that won’t affect their industries for decades. Yet disruption happens. It’s safe to say that the history of humankind is a history of disruption – a stream of innovations that have tipped the balance in favour of the innovators. In that sense, technological breakthroughs are the original megatrend. What’s unique in the 21st century, though, is the ubiquity of technology, together with its accessibility, reach, depth, and impact.

Business leaders worldwide acknowledge these changes, and have a clear sense of their significance. CEOs don’t single out any particular catalyst that leads them to that conclusion. But we maintain that technological advancements are appearing, rapidly and simultaneously, in fields as disparate as healthcare and industrial manufacturing, because of the following concurrent factors…

 

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From DSC:
For those of us working in K-20 as well as in the corporate training/L&D space, how are we doing in getting people trained and ready to deal these developments?

 

 

 

 

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From Apple:

iPhone 7 Plus doesn’t have just one entirely new camera system — it has two. The same 12MP wide-angle camera that’s on iPhone 7 works with a 12MP telephoto camera that can get even closer. That means you can get higher-quality zoom from farther away. And with an all-new depth-of-field effect (coming soon), portrait shots will look better than ever. Say hello to the world’s best photo op.

Depth-of-field effect.
Depth of field allows you to keep faces sharp while creating a blurred effect in the background. When you take a shot with iPhone 7 Plus, the dual-camera system uses both cameras and advanced machine learning to make your subject sharp while creating the same out-of-focus blur in the background — known as the bokeh effect — previously reserved for DSLR cameras. So no matter what’s behind your subject, it’s easy to create a great portrait.

 

 

Dual camera smartphones – the missing link that will bring augmented reality into the mainstream — from theconversation.com

Excerpt:

Smartphones boasting “dual cameras” are becoming more common, and news that they will feature on the just-announced iPhone 7 Plus indicates the arrival into the mainstream. But while dual cameras may stem from efforts to improve picture quality, it has the potential to lead us down much more interesting paths: the real story may be that Apple is using dual cameras to position itself for the augmented reality world ushered in by the Pokemon Go phenomenon.

The iPhone uses machine learning algorithms to scan objects within a scene, building up a real-time 3D depth map of the terrain and objects. Currently, the iPhone uses this to separate the background from the foreground in order to selectively focus on foreground objects. This effect of blurring out background details, known as bokeh, is a feature of DLSRs and not readily available on smaller cameras such as those in smartphones. The depth map allows the iPhone to simulate a variable aperture which provides the ability to display areas of the image out of focus. While an enviable addition for smartphone camera users, this is a gimmick compared to what the depth map can really do.

 

What Apple has is the first step toward a device like Microsoft’s HoloLens, an augmented reality head-mounted display currently in development.

Software that provides similar analysis of people’s poses and location within a scene for dual camera smartphones would provide a virtual window onto the real world. Using hand gesture recognition, users could naturally interact with a mixed reality world, with the phone’s accelerometer and GPS data detecting and driving changes to how that world is presented and updated.

 

 

Apple has not arrived here by accident. In addition to acquiring Linx, Apple also purchased augmented reality pioneer Metaio in 2015, suggesting a game plan to develop a mixed reality platform.

 

 

 

Dual camera smartphones: here’s why you should want one — from t3.com by Joseph Carey
The iPhone 7 Plus is meant to feature dual cameras, but why are two cameras better than one?

Excerpt:

One sensor for the main image and one for the detail – dual cameras never usually have two of the same sensor.

 

 

 

 

 

 

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Here are the big announcements from Apple’s September 2016 event — from amp.imore.com

  • iPhone 7
  • Apple Watch Series 2
  • Apple AirPods
  • iOS 10
  • watchOS 3
  • iWork: Apple announced an update to its iWork productivity suite across iPhone, iPad, and Mac that allows for real-time collaboration within Pages, Keynote, and Numbers.
  • Super Mario Run

 

 

What Apple’s Dual Camera iPhone Means For Augmented Reality — from vrscout.com

Excerpt:

Although there weren’t drastic changes made to the physical design of the iPhone (minus that old thing called a headphone jack), Apple’s unveiling of a dual-lens camera points to a world where millions of consumers could one day put a powerful augmented reality device in their pocket.

 

 

 

Apple kills headphone jack (1878 – 2016). RIP. — from techcrunch.com

 

 

 

Apple Unveils Waterproof iPhone 7 with Dual Cameras — from interestingengineering.com

 

 

 

iPhone 7 FAQ: Everything you need to know!— from amp.imore.com

 

 

 

Apple adds real-time collaboration to iWork– from engadget.com
Apple is taking on Google Docs in the education market. (From DSC: I’d like to think so, but we’ll see.)

 

 

 

After 500 Million Downloads, ‘Pokemon Go’ Is Coming To Apple Watch — from uploadvr.com

Excerpt:

A brief demonstration of the game was featured on-stage. The watch edition of the game will place a bigger focus on player fitness, tracking the calories you burn in play sessions along with distance.

 

 

Apple Watch bands FAQ: Everything you need to know! — from amp.imore.com

 

 

 

 

 

Virtual reality: The hype, the problems and the promise — from bbc.com by Tim Maughan
It’s the technology that is supposed to be 2016’s big thing, but what iteration of VR will actually catch on, and what’s just a fad? Tim Maughan takes an in-depth look.

Excerpt:

For Zec this is one of VR’s most promising potentials – to be able to drop audiences into a situation and force them to react emotionally, in ways that traditional filmmaking or journalism might struggle to do. “We really cannot understand what the people [in Syria and other places] right now are going through, so I thought maybe if we put the viewer inside the shoes of the family, or near them, maybe they can feel more and understand more rather than just reading a headline in a newspaper.”

 

The aim of Blackout is to challenge assumptions New Yorkers might have about the people around them, by allowing them to tap directly into their thoughts. “You’re given the ability to pick into people’s minds and their motives,” says co-creator Alex Porter. “Through that process you start to realise the ways in which you were wrong about all the people around you, and start to find these kind of exciting stories that they have to tell.”

 

From DSC:
Virtual Reality could have a significant impact in diversity training. (I don’t like the word diversity too much; as in my experience, everybody in the Fortune 5oo companies where I worked belonged in the realm of diversity except for Christians, but I’ll use it here anyway.)

The point is…when you can put yourself into someone else’s shoes, it could have some positive impact in terms of better being able to relate to what that person is going through.

 

 

 

Star Trek in VR – Why can’t we do this with VR in education? — from digitalbodies.net by Maya Georgieva

Excerpt:

What if there was a new way to start this journey? What if you walked into the room and boarded a starship instead? What would a school experience be like if we sent our students on a mission, joining a global team to learn and solve our world’s most pressing problems? What if they met in Virtual Reality? For example, literally experiencing the streets of Paris if they were studying French culture or urban planning. Examining first hand the geology of volcanoes or building the next generation transportation? What would happen if they are given a problem they could not answer on their own, a problem that requires collaboration and teamwork with colleagues to find a solution?

Here is how VR and AI can empower the future of learning. The Star Trek: Bridge Crew VR Game gives us a glimpse of how we can engage with our students. Or, as Levar Burton (Geordi La Forge from Engineering) in the video trailer puts it:

There is something different being in a shared virtual environment . . . The team does not succeed unless everybody does their job well.


In the true spirit of Star Trek it is through cooperation rather than competition that we learn best. In VR, you can sit on any of the crew chairs and be the captain, engineer, or doctor and experience events from very different point of views. In Star Trek: Bridge Crew, you are flying the ship but have to work collaboratively with your team. You have to work with your crew to reach goals and accomplish the mission as this is virtual reality as a social experience. It demands that you be fully engaged.

 

 

 

Not just for gamers: CSU launching Virtual Reality Initiative — from source.colostate.edu by Lauren Klamm

Excerpt:

Think “virtual reality,” and it’s probably video gaming that comes to mind. CSU is looking to expand the breadth and depth of this emerging technical field with a campus-wide Virtual Reality Initiative, launching this semester.

The initiative will give students and the science community hands-on experience with virtual reality, for research and educational applications.

Virtual reality (VR) is a way of experiencing virtual worlds or objects – the cockpit of a spaceship, an anatomy lesson, a walk through a historical building – through devices like computers, goggles or headsets designed to immerse someone in a simulated environment. VR touches fields ranging from design to art to engineering.

 

 

VR Learning: How Virtual Reality Will Democratize Learning — from iamvr.co

Excerpt:

In case you haven’t heard, there is a lot of hype right now about virtual and augmented reality. Three months into 2016, investors have already spent 1.1 billion dollars to get a piece of the action.

 

 

 

 

 

 

 

Still, I am confident that virtual reality will revolutionize how we learn, and the reason is simple. Virtual reality is not just a technology, it’s a medium. And I’ve seen how powerful that medium can be.

 

 

 

 

Augmented reality has surgical application — from thestack.com by Nicky Cappella

Excerpt:

A Chinese surgeon has discovered a practical application for augmented reality in the medical field. Using the same technology by which a Pokemon character is layered onto a real-life setting, two surgical images can be combined into a single view, eliminating the need for surgeons to watch two separate screens simultaneously.

Catherine Chan Po-ling, a surgeon in Hong Kong and co-founder of MedEXO Robotics, says that the use of augmented reality technology in keyhole, or minimally invasive, surgery can solve one of the biggest problems for surgeons performing these procedures.

 

Currently, surgeons in keyhole procedures must create and view two images simultaneously. In Chan’s example, when checking for cancerous cells in the liver, the surgeon operates a regular camera showing a view of the surface of the liver, and at the same time operates an ultrasound probe to check beneath the surface of the liver.

 

 

Stanford Journalism Program’s Guide to Using Virtual Reality for Storytelling — from storybench.org by Geri Migielicz and Janine Zacharia

Excerpt:

Given the explosion of interest in virtual reality among media organizations, we sought in January to establish best practices and ideal scenarios for using the technology in storytelling through our inaugural immersive journalism class at Stanford University.

During the 10-week course, 12 undergraduate and graduate students evaluated a range of virtual reality experiences published by the New York Times, Wall Street Journal, ABC News and others. We compared commercially available virtual reality headsets (Google Cardboard, HTC Vive, Samsung Gear/VR and Oculus Rift) for ease and quality as well as virtual reality cameras — the (more expensive but expansive) GoPro and the (more affordable) Ricoh Theta S.

 

 

 

12 ways to use Google Cardboard in your class — from ditchthattextbook.com

Excerpt:

Virtual reality used to be the thing of science fiction books and movies. Now, it’s inexpensive, works with the technology we carry in our pockets, and can transform us to real and imaginary places.

 

 

 

These 5 Incredible HoloLens Videos Will Make You A VR/AR Believer — from uploadvr.com

 

 

 

 

Upload And Make School Graduate Their First Class Of VR Developers — from uploadvr.com

 

 

 

 

The first truly awesome chatbot is a talking T. Rex — from fastcodesign.com by John Brownlee
National Geographic uses a virtual Tyrannosaur to teach kids about dinosaurs—and succeeds where other chatbots fail.

 

 

Excerpt:

As some have declared chatbots to be the “next webpage,” brands have scrambled to develop their own talkative bots, letting you do everything from order a pizza to rewrite your resume. The truth is, though, that a lot of these chatbots are actually quite stupid, and tend to have a hard time understanding natural human language. Sooner or later, users get frustrated bashing their heads up against the wall of a dim-witted bot’s AI.

So how do you design around a chatbot’s walnut-sized brain? If you’re National Geographic Kids UK, you set your chatbot to the task of pretending to be a Tyrannosaurus rex, a Cretaceous-era apex predator that really had a walnut-sized brain (at least comparatively speaking).

 

She’s called Tina the T. rex, and by making it fun to learn about dinosaurs, she suggests that education — rather than advertising or shopping — might be the real calling of chatbots.

 

 

 

Also relevant/see:

Honeybot-August2016

 

The Top Ten Emerging Technologies of 2016 — from wsj.com by Irving Wladawsky-Berger

Excerpt:

Here are the ten technologies comprising the 2016 list, along with the reason cited by the WEF for their selection:

  • Nanosensors and the Internet of Nanothings — “With the Internet of Things expected to comprise 30 billion connected devices by 2020, one of the most exciting areas of focus today is now on nanosensors capable of circulating in the human body or being embedded in construction materials.”
  • Next-generation batteries— “One of the greatest obstacles holding renewable energy back is matching supply with demand, but recent advances in energy storage using sodium, aluminum, and zinc based batteries makes mini-grids feasible that can provide clean, reliable, around-the-clock energy sources to entire villages.”
  • The Blockchain — “With venture investment related to the online currency bitcoin exceeding $1 billion in 2015 alone, the economic and social impact of blockchain’s potential to fundamentally change the way markets and governments work is only now emerging.”
  • 2-D materials — “Plummeting production costs mean that 2D materials like graphene are emerging in a wide range of applications, from air and water filters to new generations of wearables and batteries.”
  • Autonomous vehicles — “The potential of self-driving vehicles for saving lives, cutting pollution, boosting economies, and improving quality of life for the elderly and other segments of society has led to rapid deployment of key technology forerunners along the way to full autonomy.”
  • Organs-on-chips — “Miniature models of human organs could revolutionize medical research and drug discovery by allowing researchers to see biological mechanism behaviors in ways never before possible.”
  • Perovskite solar cells — “This new photovoltaic material offers three improvements over the classic silicon solar cell: it is easier to make, can be used virtually anywhere and, to date, keeps on generating power more efficiently.”
  • Open AI ecosystem — “Shared advances in natural language processing and social awareness algorithms, coupled with an unprecedented availability of data, will soon allow smart digital assistants to help with a vast range of tasks, from keeping track of one’s finances and health to advising on wardrobe choice.”
  • Optogenetics— “Recent developments mean light can now be delivered deeper into brain tissue, something that could lead to better treatment for people with brain disorders.”
  • Systems metabolic engineering — “Advances in synthetic biology, systems biology, and evolutionary engineering mean that the list of building block chemicals that can be manufactured better and more cheaply by using plants rather than fossil fuels is growing every year.”

 

 

Also see:

34 Most Disruptive Technologies of the Next Decade — from inc.com by Tess Townsend
Smart dust? 4-D printing? Gartner’s annual hype cycle report offers insight into new directions in technology.

 

 

Here are all the technologies in the report:

  • Smart Dust
  • 4-D Printing
  • General-Purpose Machine Intelligence
  • 802.11ax
  • Context Brokering
  • Neuromorphic Hardware
  • Data Broker PaaS (dbrPaaS)
  • Quantum Computing
  • Human Augmentation
  • Personal Analytics
  • Smart Workspace
  • Volumetric Displays
  • Conversational User Interfaces
  • Brain-Computer Interface
  • Virtual Personal Assistants
  • Smart Data Discovery
  • Affective Computing
  • Commercial UAVs (Drones)
  • IoT Platform
  • Gesture Control Devices
  • Micro Data Centers
  • Smart Robots
  • Blockchain
  • Connected Home
  • Cognitive Expert Advisors
  • Machine Learning
  • Software-Defined Security
  • Autonomous Vehicles
  • Nanotube Electronics
  • Software-Defined Anything (SDx)
  • Natural-Language Question Answering
  • Enterprise Taxonomy and Ontology Management
  • Augmented Reality
  • Virtual Reality

 

 

 

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From Dreams to Realities: AR/VR/MR in Education | A Q&A with Daniel Christian — from campustechnology.com by Mary Grush; I’d like to thank Jason VanHorn for his contributions to this article

Excerpt:

Grush: Is there a signpost you might point to that would indicate that there’s going to be more product development in AR/VR/MR?

Christian: There’s a significant one. Several major players — with very deep pockets — within the corporate world are investing in new forms of HCI, including Microsoft, Google, Apple, Facebook, Magic Leap, and others. In fact, according to an article on engadget.com from 6/16/16, “Magic Leap has amassed an astounding $1.39 billion in funding without shipping an actual product.” So to me, it’s just not likely that the billions of dollars being invested in a variety of R&D-related efforts are simply going to evaporate without producing any impactful, concrete products or services. There are too many extremely smart, creative people working on these projects, and they have impressive financial backing behind their research and product development efforts. So, I think we can expect an array of new choices in AR/VR/MR.

Just the other day I was talking to Jason VanHorn, an associate professor in our geology, geography, and environmental studies department. After finishing our discussion about a particular learning space and how we might implement active learning in it, we got to talking about mixed reality. He related his wonderful dreams of being able to view, manipulate, maneuver through, and interact with holographic displays of our planet Earth.

When I mentioned a video piece done by Case Western and the Cleveland Clinic that featured Microsoft’s Hololens technology, he knew exactly what I was referring to. But this time, instead of being able to drill down through the human body to review, explore, and learn about the various systems composing our human anatomy, he wanted to be able to drill down through the various layers of the planet Earth. He also wanted to be able to use gestures to maneuver and manipulate the globe — turning the globe to just the right spot before using a gesture to drill down to a particular place.

 

 

 

 
© 2024 | Daniel Christian