During Lab work on Jan 28, we experienced Video 360 cardboard movies
let’s take 5-10 min and check out the following videos (select and watch at least three of them)
F2F students, please Google Cardboard
Online students, please view on your computer or mobile devices, if you don’t have googles at your house (you can purchase now goggles for $5-7 from second-hand stores such as Goodwill)
Both F2F and online students. Here directions how to easily open the movies on your mobile devices:
Copy the URL and email it to yourself.
Open the email on your phone and click on the link
If you have goggles, click on the appropriate icon lower right corner and insert the phone in the goggles
Open your D2L course on your phone (you can use the mobile app).
Go to the D2L Content Module with these directions and click on the link.
After the link opens, insert phone in the goggles to watch the video
Videos: While watching the videos, consider the following objectives:
– Does this particular technology fit in the instructional design (ID) frames and theories covered, e.g. PBL, CBL, Activity Theory, ADDIE Model, TIM etc. (https://blog.stcloudstate.edu/ims/2020/01/29/im-690-id-theory-and-practice/ ). Can you connect the current state, but also the potential of this technology with the any of these frameworks and theories, e.g., how would Google Tour Creator or any of these videos fits in the Analysis – Design – Development – Implementation – Evaluation process? Or, how do you envision your Google Tour Creator project or any of these videos to fit in the Entry – Adoption – Adaptation – Infusion – Transformation process?
– how does this particular technology fit in the instructional design (ID) frames and theories covered so far?
– what models and ideas from the videos you will see seem possible to be replicated by you?
Find one F2F and one online peer to form a group.
Based on the questions/directions before you started watching the videos:
– Does this particular technology fit in the instructional design (ID) frames and theories covered. e.g. PBL, CBL, Activity Theory, ADDIE Model, TIM etc. (https://blog.stcloudstate.edu/ims/2020/01/29/im-690-id-theory-and-practice/ ). Can you connect the current state, but also the potential of this technology with the any of these frameworks and theories, e.g., how would Google Tour Creator or any of these videos fits in the Analysis – Design – Development – Implementation – Evaluation process? Or, how do you envision your Google Tour Creator project or any of these videos to fit in the Entry – Adoption – Adaptation – Infusion – Transformation process?
– how does this particular technology fit in the instructional design (ID) frames and theories covered so far?
– what models and ideas from the videos you will see seem possible to be replicated by you?
exchange thoughts with your peers and make a plan to create similar educational product
Evaluate the ability of the game you watched to be incorporated in the educational process
Assignment: In 10-15 min (mind your peers, since we have only headset), do your best to evaluate one educational app (e.g., Labster) and one leisure app (games).
Use the same questions to evaluate Lenovo DayDream:
– Does this particular technology fit in the instructional design (ID) frames and theories covered, e.g. PBL, CBL, Activity Theory, ADDIE Model, TIM etc. (https://blog.stcloudstate.edu/ims/2020/01/29/im-690-id-theory-and-practice/ ). Can you connect the current state, but also the potential of this technology with the any of these frameworks and theories, e.g., how would Google Tour Creator or any of these videos fits in the Analysis – Design – Development – Implementation – Evaluation process? Or, how do you envision your Google Tour Creator project or any of these videos to fit in the Entry – Adoption – Adaptation – Infusion – Transformation process?
– how does this particular technology fit in the instructional design (ID) frames and theories covered so far?
– what models and ideas from the videos you will see seem possible to be replicated by you?
Institutional support for accessibility technologies
Blended data center (on premises and cloud based)
Incorporation of mobile devices in teaching and learning
Open educational resources
Technologies for improving analysis of student data
Security analytics
Integrated student success planning and advising systems
Mobile apps for enterprise applications
Predictive analytics for student success (institutional level)
At least 35% of institutions are tracking these five technologies in 2020: Support for 5G; Wi-Fi 6 (802.11 ax, AX Wi-Fi); Identity as a Service (IDaaS); Digital microcredentials (including badging); Uses of the Internet of Things for teaching and learning; and Next-generation digital learning environment
New findings from the EDUCAUSE 2019 Study of Faculty and Information Technology based on nearly 10,000 faculty from 120 institutions. EDUCAUSE https://t.co/4GdYW6TpVY
Research has shown that 50 percent of college students spend a minimum of five hours each week on social media. These social channels feed information from news outlets, private bloggers, friends and family, and myriad other sources that are often curated based on the user’s interests. But what really makes social media a tricky resource for students and educators alike is that most companies don’t view themselves as content publishers. This position essentially absolves social media platforms of the responsibility to monitor what their users share, and that can allow false even harmful information to circulate.
“How do we help students become better consumers of information, data, and communication?” Fluency in each of these areas is integral to 21st century-citizenry, for which we must prepare students.
In English 202C, a technical writing course, students use our Invention Studio and littleBits to practice inventing their own electronic devices, write instructions for how to construct the device, and have classmates reproduce the invention.
The proliferation of mobile devices and high-speed Wi-Fi have made videos a common outlet for information-sharing. To keep up with the changing means of communication, Penn State campuses are equipped with One Button Studio, where students can learn to produce professional-quality video. With this, students must learn how to take information and translate it into a visual medium in a way that will best benefit the intended audience. They can also use the studios to hone their presentation or interview skills by recording practice sessions and then reviewing the footage.
++++++++++++++
more on digital media in this IMS blog https://blog.stcloudstate.edu/ims?s=digital+media
Evanston, Illinois, Public Library is one of a dozen or so libraries across the country to offer the public access to digital pop-up libraries.
Digital pop-up libraries seem to be especially geared to cellphone and tablet users… Research shows that 77 percent of Americans now own a smartphone, over double the 35 percent that owned one in 2011. This growth is reflected in almost all age groups and demographics in the U.S. And on top of that, an increasing number of Americans, particularly the younger generation, are getting their news on mobile devices.
cutting out the administrative burden of library cards, accounts, and fines. A “low-maintenance, high-impact” approach, according to Baker and Taylor.
Hotspots expand the reach of the library service and remove the barriers associated with a physical building.
We hear that smartphones can be addictive, that screen time can hurt learning, but can’t these minicomputers also teach kids about responsibility and put educational apps at their tiny fingertips?
safety
Common Sense Media, a nonprofit focused on kids and technology, says rather than considering the age of a child, focus on maturity. Some questions to consider are:
Are they responsible with their belongings?
Will they follow rules around phone use?
Would having easy access to friends benefit them for social reasons?
And do kids need to be in touch for safety reasons? If so, will an old-fashioned flip phone (like the one Sydney never charged) do the trick?
While Pew Research from 2015 puts adult smartphone ownership in the U.S. at 72 percent, there’s some debate about smartphone ownership among children. The average age for a child to get their first smartphone is currently 10.3 years according to the recent Influence Central report, Kids & Tech: The Evolution of Today’s Digital Natives.
An average of 65 percent of children aged between 8 and 11 have their own smartphone in the U.K. according to a survey by Internet Matters. That survey also found that the majority of parents would like a minimum age for smartphone ownership in the U.K. to be set at age 10.
However, some kids are using smartphones from a very young age. One study by the American Academy of Pediatrics that focused on children in an urban, low-income, minority community suggested that almost all children (96.6 percent) use mobile devices and that 75 percent have their own mobile device by the age of four.
+++++++++++++
peer reviewed
Lauricella, A., Wartella, E., & Rideout, V. (2015). Young children’s screen time: The complex role of parent and child factors. Journal of Applied Developmental Psychology, 36, 11–17. https://doi.org/10.1016/j.appdev.2014.12.001
Rikuya Hosokawa, & Toshiki Katsura. (2018). Association between mobile technology use and child adjustment in early elementary school age. PLoS ONE, 13(7), e0199959. https://doi.org/10.1371/journal.pone.0199959
Percentage of moms whose children used device by age 2.(THE DATA PAGE)(Statistical data). (2011). Editor & Publisher, 144(10).
PERCENTAGE OF MOMS WHOSE CHILDREN USED DEVICE BY AGE 2
Gen Y moms Gen X moms
Laptop 34% 29%
Cell Phone 34% 26%
Smart Phone 33% 20%
Digital Camera 30% 18%
iPod 34% 13%
Videogame System 13% 8%
Hand-held gaming device 13% 10%
Source: Frank N. Magid & Associates, Inc./Metacafe
Only 2% of institutions have deployed digital microcredentials (including badging) institution-wide, but 29% are expanding or planning their use. —EDUCAUSE Strategic Technologies, 2019
p. 15 Increasing Demand for Digital Learning Experience and Instructional Design Expertise
A driving factor for mobile learning is the ownership of mobile devices, particularly the smartphone. In 2018, the Pew Research Center reported that 59% of adults globally own a smartphone, and research from the EDUCAUSE Center for Analysis and Research indicated that 95% of undergraduate students own smartphones. As mobile device ownership and usage have increased, mobile learning is no longer just focused on asynchronous interaction, content creation, and reference. More emphasis is emerging on content that is responsive instead of adaptive and on creating microlearning experiences that can sync across multiple devices and give learners the flexibility to learn on the device of their choice
p. 25 Mixed Reality
p. 36 Fail or Scale: AR and MR –
In 2016, the Horizon Expert Panel determined that augmented reality and virtual reality were two to three years from widespread adoption. By 2018, the notion of mixed reality was, at four to five years from adoption, even further out.
p. 38 Bryan Alexander: Gaming and Gamification (Fail or Scale)
Omidyar Network’s report on what works in scaling education technology in different regions worldwide. Governments, educators, advocacy groups and companies large and small need to work better together. Long-term planning and investment in infrastructure for widespread and improved access to the internet and mobile devices is critical.
But what may surprise some readers of the report, released Monday, is what the United States can learn from developing nations when it comes to bringing together all parties interested in edtech.
Smartphones also provide an easy way for teachers to “inspire students to positively contribute to and responsibly participate in the digital world,” as espoused by the ISTE Standards for Educators.
research shows that when students are engaged in their learning — and they’re almost always engaged with their phones when given a choice — they are less likely to succumb to distractions.
1. Create short videos.
Videos can express any type of learning in any style, from music videos to interviews, book trailers, historical re-enactments, tutorials and stop animations.
Flipgrid is the one of the best educational video-creation sites
Gartner predicts that nearly 38 percent of companies will stop providing devices to workers by 2017 — but 20 percent of those BYOD programs will fail because of overly restrictive mobile device management measures. So how can IT pros devise a BYOD strategy that stays afloat? Here are six guidelines to accommodate legitimate IT concerns without sinking a policy’s odds of success:
Look to Existing Policies
Before creating a BYOD policy, take a look at existing HR and legal procedures. Many email, VPN, and remote access security policies can be applied to mobile devices, as well.
Provide Training and Education
Employees are using personal devices at work, whether the company realizes it or not. But that doesn’t mean they are using them correctly. Employees often use file-sharing and other tools of their choosing without IT’s knowledge, which could put sensitive corporate data at risk. Use a BYOD policy to trainemployees how to correctly use their applications
Specify Devices
BYOD isn’t limited to smartphones. According to Gartner, a “new norm” is emerging in which employees manage up to four or five devices at work.
Enforce Passwords and Encryption
passwords aren’t foolprool. Data encryption is an additional security measure
A smart BYOD policy doesn’t mean IT is off the hook. Rather, successful policies rely on IT and employees sharing security obligations.
Set Ownership Expectations
Employees often fail to realize that all data on their devices is discoverable, regardless of whether the device is personal or company-owned. The question of who owns what is still a legal gray area, though companies increasingly take the liberty to remote wipe employees’ personal devices once they leave their job. Avoid the guessing game with a clear exit strategy.
