Digital Literacy for St. Cloud State University
Study: U.S. adults who mostly rely on social media for news are less informed, exposed to more conspiracies from r/technology
A new report from Pew Research makes an attempt to better understand U.S. adults who get their news largely from social media platforms, and compare their understanding of current events and political knowledge to those who use other sources, like TV, radio and news publications.
Got a new open access article out on the ways AI is embedding in education research. Well-funded precision education experts and learning engineers aim to collect psychodata, brain data and biodata as evidence of the embodied substrates of learning. https://t.co/CbdHReXUiz
— Ben Williamson (@BenPatrickWill) July 24, 2020
https://www.scienceopen.com/document/read?vid=992eaf61-35dd-454e-aa17-f9f8216b381b
This article presents an examination of how education research is being remade as an experimental data-intensive science. AI is combining with learning science in new ‘digital laboratories’ where ownership over data, and power and authority over educational knowledge production, are being redistributed to research assemblages of computational machines and scientific expertise.
Research across the sciences, humanities and social sciences is increasingly conducted through digital knowledge machines that are reconfiguring the ways knowledge is generated, circulated and used (Meyer and Schroeder, 2015).
Knowledge infrastructures, such as those of statistical institutes or research-intensive universities, have undergone significant digital transformation with the arrival of data-intensive technologies, with knowledge production now enacted in myriad settings, from academic laboratories and research institutes to commercial research and development studios, think tanks and consultancies. Datafied knowledge infrastructures have become hubs of command and control over the creation, analysis and exchange of data (Bigo et al., 2019).
The combination of AI and learning science into an AILSci research assemblage consists of particular forms of scientific expertise embodied by knowledge actors – individuals and organizations – identified by categories including science of learning, AIED, precision education and learning engineering.
Precision education overtly uses psychological, neurological and genomic data to tailor or personalize learning around the unique needs of the individual (Williamson, 2019). Precision education approaches include cognitive tracking, behavioural monitoring, brain imaging and DNA analysis.
Expert power is therefore claimed by those who can perform big data analyses, especially those able to translate and narrate the data for various audiences. Likewise, expert power in education is now claimed by those who can enact data-intensive science of learning, precision education and learning engineering research and development, and translate AILSci findings into knowledge for application in policy and practitioner settings.
the thinking of a thinking infrastructure is not merely a conscious human cognitive process, but relationally performed across humans and socio-material strata, wherein interconnected technical devices and other forms ‘organize thinking and thought and direct action’.
As an infrastructure for AILSci analyses, these technologies at least partly structure how experts think: they generate new understandings and knowledge about processes of education and learning that are only thinkable and knowable due to the computational machinery of the research enterprise.
Big data-based molecular genetics studies are part of a bioinformatics-led transformation of biomedical sciences based on analysing exceptional volumes of data (Parry and Greenhough, 2018), which has transformed the biological sciences to focus on structured and computable data rather than embodied evidence itself.
Isin and Ruppert (2019) have recently conceptualized an emergent form of power that they characterize as sensory power. Building on Foucault, they note how sovereign power gradually metamorphosed into disciplinary power and biopolitical forms of statistical regulation over bodies and populations.
Sensory power marks a shift to practices of data-intensive sensing, and to the quantified tracking, recording and representing of living pulses, movements and sentiments through devices such as wearable fitness monitors, online natural-language processing and behaviour-tracking apps. Davies (2019: 515–20) designates these as ‘techno-somatic real-time sensing’ technologies that capture the ‘rhythms’ and ‘metronomic vitality’ of human bodies, and bring about ‘new cyborg-type assemblages of bodies, codes, screens and machines’ in a ‘constant cybernetic loop of action, feedback and adaptation’.
Techno-somatic modes of neural sensing, using neurotechnologies for brain imaging and neural analysis, are the next frontier in AILSci. Real-time brainwave sensing is being developed and trialled in multiple expert settings.
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more on AI in this IMS blog
https://blog.stcloudstate.edu/ims?s=artificial+intelligence
Pew research: Tech experts believe social media is harming democracy from r/technology
The years of almost unfettered enthusiasm about the benefits of the internet have been followed by a period of techlash as users worry about the actors who exploit the speed, reach and complexity of the internet for harmful purposes. Over the past four years – a time of the Brexit decision in the United Kingdom, the American presidential election and a variety of other elections – the digital disruption of democracy has been a leading concern.
Some think the information and trust environment will worsen by 2030 thanks to the rise of video deepfakes, cheapfakes and other misinformation tactics.
Power Imbalance: Democracy is at risk because those with power will seek to maintain it by building systems that serve them not the masses. Too few in the general public possess enough knowledge to resist this assertion of power.
EXPLOITING DIGITAL ILLITERACY
danah boyd, principal researcher at Microsoft Research and founder of Data & Society, wrote, “The problem is that technology mirrors and magnifies the good, bad AND ugly in everyday life. And right now, we do not have the safeguards, security or policies in place to prevent manipulators from doing significant harm with the technologies designed to connect people and help spread information.”
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more on social media in this IMS blog
https://blog.stcloudstate.edu/ims?s=social+media
Back in the 1960s, an experimental form of teaching made a big splash at colleges. It was called PSI, or the Personalized System of Instruction. https://en.wikipedia.org/wiki/Keller_Plan
http://www.nwlink.com/~donclark/hrd/history/psi.html
the case that colleges should do more to professionalize teaching, which might help reduce the number of fads that emerge. But he also acknowledges that there are risks. “If you start creating elaborate bureaucracies to measure and judge [teaching], might you actually depersonalize it? Might you take some of the charisma, idiosyncrasy and serendipity out of it?”
Ternier, S., Klemke, R., Kalz, M., Van Ulzen, P., & Specht, M. (in press). ARLearn: augmented reality meets augmented virtuality [Special issue]. Journal of Universal Computer Science – Technolgy for learning across physical and virtual spaces.
https://www.academia.edu/29464704/ARLearn_augmented_reality_meets_augmented_virtuality
Augmented reality (AR) and AR games offer a unique opportunity to
implement this core idea in linking real world situations and problems with learning
support. The theory of situated learning [Lave & Wenger, 90] is grounded on the
assumption that learners do not learn via the plain acquisition of knowledge but they
learn via the active participation in frameworks and social contexts with a specific
social engagement structure. Kolb’s learning cycle [Kolb, 84] and the concept of
experiential learning discusses
de Freitas stresses the importance of linking the
experiences made in a game, simulation or micro world with their application in real
world practices [de Freitas, 06]. [Brown & Cairns, 04] describe game immersion as a
continuum from engagement over engrossment to total immersion.
Despite the huge potential of immersive games to overcome the gap between the real
world and the educational context and the rising market for electronic games [PWC,
10], the use of technology-enhanced immersive games in education is still quite low.
The reasons for this are manyfold:
● high game development costs meet limited educational budgets [Westera et
al., 08]
● predefined games are hard to be integrated in the educational process
[Klopfer, Osterweil & Salen, 09]
● learner support in online games does not easily scale [Van Rosmalen et al.,
08]
● furthermore, game platforms up to now could not easily be integrated with
real world environments.
augmented reality browsers like Layar and Wikitude
first mashups for Google StreetView (called StreetLearn) and for mobile
devices which use the Android Google Maps API (called ARLearn). StreetLearn is
intended to provide an augmented virtuality environment on a Desktop, while mobile
devices are provided with an augmented reality experience through ARLearn. By
creating scripts, adding interactive elements and by introducing gamification
elements, we believe that we can increase the learner’s motivation and provide a
richer learning experience linking mobile augmented reality and augmented virtuality.
freely available tools and offers an open REST API. From the enduser
point of view, playing games is easy for users and requires no special knowledge.
Creating scripts requires no programming skills but does impose still technical
background as scripts are to be edited either in JSON or XML.
my note: the LITA publication about the Emporia State University (see below) pursues the same goals of the project two SCSU librarians, Susan Hubbs, MLIS, and Plamen Miltenoff, Ph.D. MLIS, have developed:
This library orientation was an improved version of Plamen Miltenoff’s 2014-2016 research project with numerous national and international publications and presentations: https://web.stcloudstate.edu/pmiltenoff/bi/
E.g.:
Miltenoff, P. (2018). AR, VR, and Video 360: Toward New Realities in Education by Plamen Miltenoff. In J.-P. Van Arnhem, C. Elliott, & M. Rose (Eds.), Augmented and Virtual Reality in Libraries. Retrieved from https://rowman.com/ISBN/9781538102909
https://www.slideshare.net/aidemoreto/video-360-in-the-library
https://www.slideshare.net/aidemoreto/scsu-augmented-reality-library-tour-122152539
https://www.slideshare.net/aidemoreto/vr-library
https://www.slideshare.net/aidemoreto/intro-to-xr-in-libraries-137315988
https://www.slideshare.net/aidemoreto/xr-mission-possible
https://www.slideshare.net/aidemoreto/library-technology-conference-2018
and the upcoming LITA workshops:
http://www.ala.org/lita/virtual-reality-augmented-reality-mixed-reality-and-academic-library
Virtual reality (VR) has emerged as a popular technology for gaming and learning, with its uses for teaching presently being investigated in a variety of educational settings. However, one area where the effect of this technology on students has not been examined in detail is as tool for new student orientation in colleges and universities. This study investigates this effect using an experimental methodology and the population of new master of library science (MLS) students entering a library and information science (LIS) program. The results indicate that students who received a VR orientation expressed more optimistic views about the technology, saw greater improvement in scores on an assessment of knowledge about their program and chosen profession, and saw a small decrease in program anxiety compared to those who received the same information as standard text-and-links. The majority of students also indicated a willingness to use VR technology for learning for long periods of time (25 minutes or more). The researchers concluded that VR may be a useful tool for increasing student engagement, as described by Game Engagement Theory.
https://account.altvr.com/events/1459609665267564719
Tuesday, June 16, 2020 from 1:00 PM to 2:00 PM (CDT)
This event will be an expert panel considering research in/about VR. The experts in the panel are; Sam Reno, Géraldine Perriguey, Anthony Chaston PhD and Evelien Ydo who all have presented for the research track before (biographies below, see the EDVR YouTube channel for their previous presentations). The event will be highly interactive, where the audience is welcomed to introduce topics and questions for the panel to discuss. At the end of the event there will be some time to network as well.
The Educators in VR Research Team features researchers from across the spectrum of VR/AR/XR research and development, coming together to share their knowledge, techniques, and research and learn from each other. Join us to discuss the possibilities and potential of research in VR. We host regular meetups and workshops for discussion and learning.
After March 2020 reports about Zoom privacy issues, now Zoom acknowledges working with the Chinese government:
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Unlike many other major tech platforms based in the U.S., Zoom, which is headquartered in California, has not been blocked by the Chinese government. Zoom said in a blog post that it is “developing technology over the next several days that will enable us to remove or block at the participant level based on geography” which will allow the company to “to comply with requests from local authorities when they determine activity on our platform is illegal within their borders; however, we will also be able to protect these conversations for participants outside of those borders where the activity is allowed.”
Zoom’s interference with the Tiananmen gatherings and its suspension of user accounts raised alarm among many in higher education, which increasingly depends on Zoom to operate courses remotely — including for students located within China’s borders.
Multiple scholars took to Twitter to express their worries
PEN America, a group that advocates for free expression, condemned Zoom for shuttering the activist’s account.
This is not the first time Zoom’s links to China have come under scrutiny. In April, the company admitted that some of its user data were “mistakenly” routed through China; in response, the company announced that users of paid Zoom accounts could opt out of having their data routed through data centers in China.
An April 3 report by scholars at the University of Toronto’s Munk School of Global Affairs & Public Policy said Zoom’s research and development operations in China could make the company susceptible “to pressure from Chinese authorities.”
Zoom, whose Chinese-born CEO is a U.S. citizen, said in its latest annual report to the U.S. Securities and Exchange Commission that it had more than 700 employees at its research and development centers in China as of Jan. 31. The SEC filing notes that Zoom has a “high concentration of research and development personnel in China, which could expose us to market scrutiny regarding the integrity of our solution or data security features.”
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Zoom Just Totally Caved In to China on Censorship from r/technology
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more about Zoom in this IMS blog
https://blog.stcloudstate.edu/ims?s=zoom
Modest3D Guided Virtual Adventure – iLRN Conference 2020 – Session 1: currently, live session: https://youtu.be/GjxTPOFSGEM
https://mediaspace.minnstate.edu/media/Modest+3D/1_28ejh60g
Instruction and Instructional Design
Presentation 1: Inspiring Faculty (+ Students) with Tales of Immersive Tech (Practitioner Presentation #106)
Authors: Nicholas Smerker
Immersive technologies – 360º video, virtual and augmented realities – are being discussed in many corners of higher education. For an instructor who is familiar with the terms, at least in passing, learning more about why they and their students should care can be challenging, at best. In order to create a font of inspiration, the IMEX Lab team within Teaching and Learning with Technology at Penn State devised its Get Inspired web resource. Building on a similar repository for making technology stories at the sister Maker Commons website, the IMEX Lab Get Inspired landing page invites faculty to discover real world examples of how cutting edge XR tools are being used every day. In addition to very approachable video content and a short summary calling out why our team chose the story, there are also instructional designer-developed Assignment Ideas that allow for quick deployment of exercises related to – though not always relying upon – the technologies highlighted in a given Get Inspired story.
Presentation 2: Lessons Learned from Over A Decade of Designing and Teaching Immersive VR in Higher Education Online Courses (Practitioner Presentation #101)
Authors: Eileen Oconnor
This presentation overviews the design and instruction in immersive virtual reality environments created by the author beginning with Second Life and progressing to open source venues. It will highlight the diversity of VR environment developed, the challenges that were overcome, and the accomplishment of students who created their own VR environments for K12, college and corporate settings. The instruction and design materials created to enable this 100% online master’s program accomplishment will be shared; an institute launched in 2018 for emerging technology study will be noted.
Presentation 3: Virtual Reality Student Teaching Experience: A Live, Remote Option for Learning Teaching Skills During Campus Closure and Social Distancing (Practitioner Presentation #110)
Authors: Becky Lane, Christine Havens-Hafer, Catherine Fiore, Brianna Mutsindashyaka and Lauren Suna
Summary: During the Coronavirus pandemic, Ithaca College teacher education majors needed a classroom of students in order to practice teaching and receive feedback, but the campus was closed, and gatherings forbidden. Students were unable to participate in live practice teaching required for their program. We developed a virtual reality pilot project to allow students to experiment in two third-party social VR programs, AltSpaceVR and Rumii. Social VR platforms allow a live, embodied experience that mimics in-person events to give students a more realistic, robust and synchronous teaching practice opportunity. We documented the process and lessons learned to inform, develop and scale next generation efforts.
Target audience sector: Informal and/or lifelong learning
Supported devices: Desktop/laptop – Windows, Desktop/laptop – Mac
Platform/environment access: Download from a website and install on a desktop/laptop computer
Official website: http://www.secondlife.com
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Click here to remove from My Sched.Presentation 1: Evaluating the impact of multimodal Collaborative Virtual Environments on user’s spatial knowledge and experience of gamified educational tasks (Full Paper #91)
Authors: Ioannis Doumanis and Daphne Economou
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Several research projects in spatial cognition have suggested Virtual Environments (VEs) as an effective way of facilitating mental map development of a physical space. In the study reported in this paper, we evaluated the effectiveness of multimodal real-time interaction in distilling understanding of the VE after completing gamified educational tasks. We also measure the impact of these design elements on the user’s experience of educational tasks. The VE used reassembles an art gallery and it was built using REVERIE (Real and Virtual Engagement In Realistic Immersive Environment) a framework designed to enable multimodal communication on the Web. We compared the impact of REVERIE VG with an educational platform called Edu-Simulation for the same gamified educational tasks. We found that the multimodal VE had no impact on the ability of students to retain a mental model of the virtual space. However, we also found that students thought that it was easier to build a mental map of the virtual space in REVERIE VG. This means that using a multimodal CVE in a gamified educational experience does not benefit spatial performance, but also it does not cause distraction. The paper ends with future work and conclusions and suggestions for improving mental map construction and user experience in multimodal CVEs.
Presentation 2: A case study on student’s perception of the virtual game supported collaborative learning (Full Paper #42)
Authors: Xiuli Huang, Juhou He and Hongyan Wang
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The English education course in China aims to help students establish the English skills to enhance their international competitiveness. However, in traditional English classes, students often lack the linguistic environment to apply the English skills they learned in their textbook. Virtual reality (VR) technology can set up an immersive English language environment and then promote the learners to use English by presenting different collaborative communication tasks. In this paper, spherical video-based virtual reality technology was applied to build a linguistic environment and a collaborative learning strategy was adopted to promote their communication. Additionally, a mixed-methods research approach was used to analyze students’ achievement between a traditional classroom and a virtual reality supported collaborative classroom and their perception towards the two approaches. The experimental results revealed that the virtual reality supported collaborative classroom was able to enhance the students’ achievement. Moreover, by analyzing the interview, students’ attitudes towards the virtual reality supported collaborative class were reported and the use of language learning strategies in virtual reality supported collaborative class was represented. These findings could be valuable references for those who intend to create opportunities for students to collaborate and communicate in the target language in their classroom and then improve their language skills
Click here to remove from My Sched.Presentation 1: Reducing Cognitive Load through the Worked Example Effect within a Serious Game Environment (Full Paper #19)
Authors: Bernadette Spieler, Naomi Pfaff and Wolfgang Slany
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Novices often struggle to represent problems mentally; the unfamiliar process can exhaust their cognitive resources, creating frustration that deters them from learning. By improving novices’ mental representation of problems, worked examples improve both problem-solving skills and transfer performance. Programming requires both skills. In programming, it is not sufficient to simply understand how Stackoverflow examples work; programmers have to be able to adapt the principles and apply them to their own programs. This paper shows evidence in support of the theory that worked examples are the most efficient mode of instruction for novices. In the present study, 42 students were asked to solve the tutorial The Magic Word, a game especially for girls created with the Catrobat programming environment. While the experimental group was presented with a series of worked examples of code, the control groups were instructed through theoretical text examples. The final task was a transfer question. While the average score was not significantly better in the worked example condition, the fact that participants in this experimental group finished significantly faster than the control group suggests that their overall performance was better than that of their counterparts.
Presentation 2: A literature review of e-government services with gamification elements (Full Paper #56)
Authors: Ruth S. Contreras-Espinosa and Alejandro Blanco-M
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Nowadays several democracies are facing the growing problem of a breach in communication between its citizens and their political representatives, resulting in low citizen’s engagement in the participation of political decision making and on public consultations. Therefore, it is fundamental to generate a constructive relationship between both public administration and the citizens by solving its needs. This document contains a useful literature review of the gamification topic and e-government services. The documents contain a background of those concepts and conduct a selection and analysis of the different applications found. A set of three lines of research gaps are found with a potential impact on future studies.
Click here to remove from My Sched.Presentation 1: Connecting User Experience to Learning in an Evaluation of an Immersive, Interactive, Multimodal Augmented Reality Virtual Diorama in a Natural History Museum & the Importance of Story (Full Paper #51)
Authors: Maria Harrington
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Reported are the findings of user experience and learning outcomes from a July 2019 study of an immersive, interactive, multimodal augmented reality (AR) application, used in the context of a museum. The AR Perpetual Garden App is unique in creating an immersive multisensory experience of data. It allowed scientifically naïve visitors to walk into a virtual diorama constructed as a data visualization of a springtime woodland understory, and interact with multimodal information directly through their senses. The user interface comprised of two different AR data visualization scenarios reinforced with data based ambient bioacoustics, an audio story of the curator’s narrative, and interactive access to plant facts. While actual learning and dwell times were the same between the AR app and the control condition, the AR experience received higher ratings on perceived learning. The AR interface design features of “Story” and “Plant Info” showed significant correlations with actual learning outcomes, while “Ease of Use” and “3D Plants” showed significant correlations with perceived learning. As such, designers and developers of AR apps can generalize these findings to inform future designs.
Presentation 2: The Naturalist’s Workshop: Virtual Reality Interaction with a Natural Science Educational Collection (Short Paper #11)
Authors: Colin Patrick Keenan, Cynthia Lincoln, Adam Rogers, Victoria Gerson, Jack Wingo, Mikhael Vasquez-Kool and Richard L. Blanton
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For experiential educators who utilize or maintain physical collections, The Naturalist’s Workshop is an exemplar virtual reality platform to interact with digitized collections in an intuitive and playful way. The Naturalist’s Workshop is a purpose-developed application for the Oculus Quest standalone virtual reality headset for use by museum visitors on the floor of the North Carolina Museum of Natural Sciences under the supervision of a volunteer attendant. Within the application, museum visitors are seated at a virtual desk. Using their hand controllers and head-mounted display, they explore drawers containing botanical specimens and tools-of-the-trade of a naturalist. While exploring, the participant can receive new information about any specimen by dropping it into a virtual examination tray. 360-degree photography and three-dimensionally scanned specimens are used to allow user-motivated, immersive experience of botanical meta-data such as specimen collection coordinates.
Presentation 3: 360˚ Videos: Entry level Immersive Media for Libraries and Education (Practitioner Presentation #132)
Authors: Diane Michaud
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Within the continuum of XR Technologies, 360˚ videos are relatively easy to produce and need only an inexpensive mobile VR viewer to provide a sense of immersion. 360˚ videos present an opportunity to reveal “behind the scenes” spaces that are normally inaccessible to users of academic libraries. This can promote engagement with unique special collections and specific library services. In December 2019, with little previous experience, I led the production of a short 360˚video tour, a walk-through of our institution’s archives. This was a first attempt; there are plans to transform it into a more interactive, user-driven exploration. The beta version successfully generated interest, but the enhanced version will also help prepare uninitiated users for the process of examining unique archival documents and artefacts. This presentation will cover the lessons learned, and what we would do differently for our next immersive video production. Additionally, I will propose that the medium of 360˚ video is ideal for many institutions’ current or recent predicament with campuses shutdown due to the COVID-19 pandemic. Online or immersive 360˚ video can be used for virtual tours of libraries and/or other campus spaces. Virtual tours would retain their value beyond current campus shutdowns as there will always be prospective students and families who cannot easily make a trip to campus. These virtual tours would provide a welcome alternative as they eliminate the financial burden of travel and can be taken at any time.
Summer 2020 course for high school teachers
Tuesday, June 22020, Dr. Bruce Jacobson
https://blog.stcloudstate.edu/ims/2020/01/16/fake-news-prevention/
News and Media Literacy (and the lack of) is not very different from Information Literacy
An “information literate” student is able to “locate, evaluate, and effectively use information from diverse sources.” See more About Information Literacy
Research always starts with a question. But the success of your research also depends on how you formulate that question. If your topic is too broad or too narrow, you may have trouble finding information when you search. When developing your question/topic, consider the following:
Evaluating Web Resources
Don’t get “keyword lock!” Be willing to try a different term as a keyword. If you are having trouble thinking of synonyms, check a thesaurus, dictionary, or reference book for ideas.
Keyword worksheet
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Test your knowledge:
******* !! *************
Zotero. Zotero AddOn for Chrome and Firefox. Zotero for Microsoft Word. Zotero AddOn for Edublog.
Collecting references
Plamen Miltenoff, Ph.D., MLIS, Professor
320-308-3072
pmiltenoff@stcloudstate.edu
schedule a meeting: https://doodle.com/digitalliteracy
find my office: https://youtu.be/QAng6b_FJqs
http://web.stcloudstate.edu/pmiltenoff/faculty/