Dec
2020
iLRN 2021
More on Virbela in this IMS blog
https://blog.stcloudstate.edu/ims?s=virbela
Digital Literacy for St. Cloud State University
More on Virbela in this IMS blog
https://blog.stcloudstate.edu/ims?s=virbela
https://blog.stcloudstate.edu/ims/2018/10/17/vr-ar-learning-materials/
Augmented reality superimposes a digital layer on the world around us, often activated by scanning a trigger image or via GPS (think Pokemon Go!). Virtual reality takes users away from the real world, fully immersing students in a digital experience that replaces reality. Mixed reality takes augmented a step further by allowing the digital and real worlds to interact and the digital components to change based on the user’s environment.
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more on Metavere in this IMS blog
https://blog.stcloudstate.edu/ims?s=metaverse
For details, go here:
https://www.eventbrite.com/e/behind-the-scenes-with-microsoft-vr-in-the-wild-tickets-128181001827
Behind the Scenes: Microsoft’s Principal Researcher Eyal Ofek speaking about technical and social perspectives of XR
About this Event
The XR Bootcamp Open Lecture Series continues with Microsoft’s Principal Researcher Eyal Ofek!
Agenda:
Virtual Reality (VR) & Augmented reality (AR) pose challenges and opportunities from both a technical and social perspective. We could now have digital, and not physical objects change our understanding of the world around us. It is a unique opportunity to change reality as we sense it.
The Microsoft Researchers are looking for new possibilities to extend our abilities when we are not bound by our physical limitations, enabling superhuman abilities on one hand, and leveling the playfield for people with physical limitations.
Dr. Ofek will describe efforts to design VR & AR applications that will adjust according to the user’s uncontrolled environment, enabling a continuous use during work and leisure, over the large variance of environments. He will also review efforts to the extent the rendering to new capabilities such as haptic rendering.
His lecture will be followed by a Q&A session where you can ask all your questions about the topic.
Lead Instructors:
Eyal Ofek is a principal researcher at the Microsoft Research lab in Redmond, WA. His research interests include Augmented Reality (AR)/Virtual Reality (VR), Haptics, interactive projection mapping, and computer vision for human-computer interaction. He is also the Specialty Chief Editor of Frontiers in Virtual Reality, for the area of Haptics and an Assoc. Editor of IEEE Computer Graphics and Application (CG&A).
Prior to joining Microsoft Research, he obtained his Ph.D. at the Hebrew University of Jerusalem and has founded a couple of companies in computer graphics, including a successful drawing and photo editing application and developing the world’s first time-of-flight video cameras which was a basis for the HoloLens depth camera.
This event is part of the Global XR Bootcamp event:
The Global XR Bootcamp 2020 will be the biggest community-driven, FREE, online Virtual, Augmented and Mixed Reality event in the world! Join us on YouTube or AltspaceVR for a 24 hour live stream with over 50 high quality talks, panels and sessions. Meet your fellow XR enthousiasts in our Community Zone, and win amazing prizes – from vouchers to XR hardware.
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more on XR in this IMS blog
https://blog.stcloudstate.edu/ims?s=xr
Forget AR glasses. Augmented reality is headed to your windshield from r/gadgets
https://www.digitaltrends.com/features/envisics-ar-windshield-technology/
a U.K.-based company called Envisics, believes that he’s found the perfect use case for real-life augmented reality holograms.
However, the biggest reason in-car AR could succeed is this: It solves a problem that actually exists. AR headsets could wind up being the biggest thing since the smartphone.
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more on AR in this IMS blog
https://blog.stcloudstate.edu/ims?s=augmented+reality
https://medium.com/8th-wall/introducing-8th-wall-curved-image-targets-f7793c31201e
Like all of 8th Wall’s WebAR capabilities, projects created using Curved Image Targets work across iOS and Android devices with an estimated reach of nearly 3 billion smartphones, and can be immediately experienced with the tap of a link or by scanning a QR code.
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more on augmented reality in this IMS blog
https://blog.stcloudstate.edu/ims?s=augmented+reality
https://www.igi-global.com/gateway/book/244559
Chapters:
Holland, B. (2020). Emerging Technology and Today’s Libraries. In Holland, B. (Eds.), Emerging Trends and Impacts of the Internet of Things in Libraries (pp. 1-33). IGI Global. http://doi:10.4018/978-1-7998-4742-7.ch001
The purpose of this chapter is to examine emerging technology and today’s libraries. New technology stands out first and foremost given that they will end up revolutionizing every industry in an age where digital transformation plays a major role. Major trends will define technological disruption. The next-gen of communication, core computing, and integration technologies will adopt new architectures. Major technological, economic, and environmental changes have generated interest in smart cities. Sensing technologies have made IoT possible, but also provide the data required for AI algorithms and models, often in real-time, to make intelligent business and operational decisions. Smart cities consume different types of electronic internet of things (IoT) sensors to collect data and then use these data to manage assets and resources efficiently. This includes data collected from citizens, devices, and assets that are processed and analyzed to monitor and manage, schools, libraries, hospitals, and other community services.
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.
Greetings to you all! Presently, I am undertaking a masters course in “Instruction Design and Technology” which has two components: Coursework and Research. For my research, I would like to pursue it in the field of Augmented Reality (AR) and Mobile Learning. I am thinking of an idea that could lead to collaboration among students and directly translate into enhanced learning for students while using an AR application. However, I am having a problem with coming up with an application because I don’t have any computing background. This, in turn, is affecting my ability to come up with a good research topic.
I teach gross anatomy and histology to many students of health sciences at Mbarara University, and this is where I feel I could make a contribution to learning anatomy using AR since almost all students own smartphones. I, therefore, kindly request you to let me know which of the freely-available AR app authoring tools could help me in this regard. In addition, I request for your suggestions regarding which research area(s) I should pursue in order to come up with a good research topic.
Hoping to hear from you soon.
Grace Muwanga Department of Anatomy Mbarara University Uganda (East Africa)
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matthew.macvey@journalism.cuny.edu
Dear Grace, a few augmented reality tools which I’ve found are relatively easy to get started with:
For iOS, iPhone, iPad: https://www.torch.app/ or https://www.adobe.com/products/aero.html
To create AR that will work on social platforms like Facebook and Snapchat (and will work on Android, iOS) try https://sparkar.facebook.com/ar-studio/ or https://lensstudio.snapchat.com/ . You’ll want to look at the tutorials for plane tracking or target tracking https://sparkar.facebook.com/ar-studio/learn/documentation/tracking-people-and-places/effects-in-surroundings/
https://lensstudio.snapchat.com/guides/general/tracking/tracking-modes/
One limitation with Spark and Snap is that file sizes need to be small.
If you’re interested in creating AR experiences that work directly in a web browser and are up for writing some markup code, look at A-Frame AR https://aframe.io/blog/webxr-ar-module/.
For finding and hosting 3D models you can look at Sketchfab and Google Poly. I think both have many examples of anatomy.
Best, Matt
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“Beth L. Ritter-Guth” <britter-guth@NORTHAMPTON.EDU>
I’ve been using Roar. They have a 99$ a year license.
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I have recently been experimenting with an AR development tool called Zappar, which I like because the end users do not have to download an app to view the AR content. Codes can be scanned either with the Zappar app or at web.zappar.com.
From a development standpoint, Zappar has an easy to use drag-and-drop interface called ZapWorks Designer that will help you build basic AR experiences quickly, but for a more complicated, more interactive use case such as learning anatomy, you will probably need ZapWorks Studio, which will have much more of a learning curve. The Hobby (non-commercial) license is free if you are interested in trying it out.
You can check out an AR anatomy mini-lesson with models of the human brain, liver, and heart using ZapWorks here: https://www.zappar.com/campaigns/secrets-human-body/. Even if you choose to go with a different development tool, this example might help nail down ideas for your own project.
Hope this helps,
Brighten
Brighten Jelke Academic Assistant for Virtual Technology Lake Forest College bjelke@lakeforest.edu Office: DO 233 | Phone: 847-735-5168
http://www.lakeforest.edu/academics/resources/innovationspaces/virtualspace.php
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more on XR in education in this IMS blog
https://blog.stcloudstate.edu/ims?s=xr+education
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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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
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.
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.
Virtual-reality workspace startup Spatial is offering a free version for users. All you need is a web browser.
JULIAN CHOKKATTU
https://www.wired.com/story/spatial-vr-ar-collaborative-spaces/
Spatial is a startup that enables people to meet through augmented or virtual reality. It’s a little similar to the now defunct Facebook Spaces, except it has much broader support. You can use VR or mixed-reality headsets from a myriad of brands—from Microsoft’s HoloLens and Nreal’s Light to the Oculus Quest—as vehicles to meet in virtual spaces.
Spatial is announcing that it’s launching support for web browsers on desktops, Android, and iOS. Oh, and the platform is now completely free and open to everyone.
The free version temporarily gives you unlimited access to all the enterprise features. Agarawala says a free version will always exist, but limitations will be added back in (like 40-minute sessions and up to three saved project rooms) once social-distancing orders wind down.
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more on immersive reality platforms in this IMS blog
https://blog.stcloudstate.edu/ims?s=virbela
https://blog.stcloudstate.edu/ims?s=engagevr
https://blog.stcloudstate.edu/ims?s=asvr