In February, Google added WebVR to Chrome on Daydream-ready phones (like Pixel and ZenFone). The WebVR standard allows users to view virtual reality (VR) experiences in a browser like Chrome by simply tapping a link and putting on a compatible headset. Yesterday, the company revealed it added support for Google Cardboard and launched a new homepage for web-based VR experiments.
WebVR support on Chrome for Oculus Rift and HTC Vive is “coming soon.”
The content itself isn’t VR, just the digital venue.
Along with these three apps, Google has also brought NextVR to Daydream, which is the only app of the bunch that actually offers 360-degree, 3D video. With Netflix VR, HBO VR, NextVR, Hulu VR and Google Play Movies & TV, Daydream has suddenly become the undisputed leader of VR video.
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More on on VR in this IMS blog https://blog.stcloudstate.edu/ims?s=vr
A new survey from Extreme Networks aimed to answer this question by polling nearly 350 schools within higher ed and K-12. According to the results, 23 percent of respondents have tested VR, while 77 percent have not (40 percent of schools polled still aren’t sure if they’ll use the technology in the future). Meaning that although virtual reality has an important and growing role in education, it may take several years to get all institutions on board.
The survey notes that one challenge to implementation is that nearly two-thirds of schools are “somewhat or not sure” their IT infrastructure can currently support VR technology.
Respondents also had concerns about the lack of VR content available, as well as a lack of student resources, with 43 percent of respondents saying that VR is too expensive or difficult to implement. However, one respondent is taking this approach to providing VR to students at low or no cost: “We are putting out a call for old smartphone donations in our [community for those] who no longer need them. With the donations, we’re making sets of Google Cardboard and phones to create traveling VR stations for classes in all of our buildings.”
1. For new research: According to the Wall Street Journal, Professor Jeremy Bailenson, founding director of the Virtual Reality Human Interaction Lab at Stanford University, is using a state-of-the-art “haptic” floor of aeronautic metal that vibrates and moves to stimulate the physical world for research on how VR has the potential to change the way users feel and behave. For example, spending time flying around the world like Superman in virtual reality has been shown to increase participants’ altruistic actions outside of the lab. There may also be implications for confronting racism, sexism, and aiding in empathy and humanitarian efforts, says Bailenson. (see more in about empathy and VR in this IMS blog: https://blog.stcloudstate.edu/ims/2015/11/18/immersive-journalism/)
2. For coding and 3D design:
a class on virtual reality that gives students the opportunity to design their own interactive world, work with 3D audio and experiment with immersive technology through a combination of hands-on learning and case studies. Also, the University of Georgia is offering similar classes where students design and explore applications for VR.
3. For anatomy and dissection:
4. For engagement: A whopping 68 percent of survey respondents said the major benefit of using VR in education is to excite students about the subject matter. 39 percent said it’s great for encouraging creativity.
Last year at the Windows 10 event, Microsoft announced a slate of upcoming Windows-compatible virtual reality (VR) headsets from Acer, ASUS, Dell, HP and other PC manufacturers that would work without desk- or wall-mounted sensors (similar to its HoloLens device). Lenovo is the first to showcase the prototype for its own self-contained VR headset, which is making its debut this week at the annual International Consumer Electronics Show (CES) in Las Vegas.
Lenovo’s prototype headset is compatible with Microsoft’s Windows Holographic platform. Like the HoloLens, its design features depth-sending cameras located on the front of the device, allowing full-room movement tracking.
But it gets even more interesting when virtual and augmented reality meet the Internet of Things
when Second Life began, there was a lot of interest, but the toolset was limited — just because of the timeframe, not that the toolset wasn’t a good one for that period. But, things matured. I think it was, in particular, the ability to work in HD that improved things a lot. Then came the ability to bring in datasets — creating dashboards and ways for people to access other data that they could bring into the virtual reality experiment. I think those two things were real forces for change.
A dashboard could pop up, and you could select among several tools, and you could get a feed from somewhere on the Internet — maybe a video or a presentation. And you can use these things as you move through this hyper reality: The datasets you select can be manipulated and be part of the entire experience.
So, the hyper reality experience became deeper, richer with tools and data via the IoT; and with HD it became more real.
We can’t deny the fact that curriculum and the way we teach is becoming unbundled. Some things are going to happen online and in the virtual space, and other things will happen in the classroom. And the expense of education is going to drive how we operate. Virtual reality tools, augmented reality tools, and visualization tools can offer experiences that can be mass-produced and sent out to lots of students, machine to machine, at a lower cost. Virtual field trips and other kinds of virtual learning experiences will become much more commonplace in the next 5 years.
To view the VR campus tour, visit the Vertra site.
“The app arose from a group project for an entrepreneurship class taught by professors Joshua Ehrig and James Peterson,” according to a report from The Brown and White,
