Searching for "immersive teaching"

05
May
2020

art and immersive teaching

categories: AR, distance learning, distributive learning, e-learning, educational technology, instructional technology, VR

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more on art and immersive teaching in this IMS blog
https://blog.stcloudstate.edu/ims?s=art+immersive

04
Mar
2020

Immersive Teaching for SCSU

categories: announcement, AR, Digital literacy

As part of our involvement with the Extended Reality Community of Practice, InforMedia Services and SCSU VizLab are offering the following workshops / introductions in augmented and virtual reality:

         Wednesday, March 18, 3PM, MC 205  (directions to MC 205: https://youtu.be/jjpLR3FnBLI )
Intro to 360 Video: easy adoption of virtual reality in your classroom

Plamen Miltenoff will lead exploration of resources; capturing 360 images and videos; hands-on session on creating virtual tours with existing and acquired imagery. 

         Wednesday, March 25, 3PM, MC 205   (directions to MC 205: https://youtu.be/jjpLR3FnBLI )
Intro to Augmented Reality
Alan Srock and Mark Gill will demonstrate the use of the Merge Cube and other augmented reality tools in their courses.
Plamen Miltenoff will lead hands-on session on creating basic AR content with Metaverse.

         Wednesday, April 1, 3PM, MC 205  (directions to MC 205: https://youtu.be/jjpLR3FnBLI )
Intro to  Virtual Reality 
Mark Gill, Alan Srock and Plamen Miltenoff will demonstrate AltSpaceVR and Virbela.
Hands-on session on creating learning spaces in virtual reality. 

These sessions will share ready-to-go resources as well as hands-on creation of materials suitable for most disciplines taught on this campus.

VR in Vizlabmerge cube IM 690

25
Apr
2022

VR teaching climate change

categories: VR

Virtual reality: A new frontier in climate change learning

https://www.universityworldnews.com/post.php?story=20220413115741390

Located in a building renovated over the past two years, the Dreamscape Learn centre welcomed 1,000 students in this, the first full semester. In place of traditional biology laboratory time, these students attend labs in the state-of-the-art virtual learning centre that cost US$20 million, paid for by Dreamscape Immersive, philanthropy and ASU.

What we’re doing with the alien zoo is replacing conventional biology labs with these highly immersive laboratory modules in which students get to enter into a virtual world and really deal with the way real scientists collect data, look at problems, collaborate, come up with solutions, try the solutions and then come up with other hypotheses.”

Making the abstract concrete

As is the case in many video games, the avatars can travel back in time, in this case to Britain at the start of the Industrial Revolution, when widespread burning of coal began increasing the CO2 levels in the atmosphere. We have an amazing tool, Schlosser told the conference, to put students next to where things happened, next to where they might look into the future. Doing this makes the abstract become concrete.

04
Nov
2021

#DLFteach Toolkit Volume 2: Lesson Plans on Immersive Pedagogy

categories: AR, e-learning, VR

The Digital Library Federation’s recently published #DLFteach Toolkit Volume 2: Lesson Plans on Immersive Pedagogy may be of interest to some of you.

“The #DLFteach Toolkit 2.0 focuses on lesson plans to facilitate disciplinary and interdisciplinary work engaged with 3D technology. As 3D/VR technology becomes relevant to a wide range of scholarly disciplines and teaching context, libraries are proving well-suited to coordinating the dissemination and integration of this technology across the curriculum. For our purposes, 3D technology includes, but is not limited to Augmented Reality (AR) and Virtual Reality (VR) technologies, 3D modeling and scanning software, 3D game engines and WebGL platforms, as well as 3D printers and extruders. While 3D/VR/AR technologies demonstrate real possibilities for collaborative, multidisciplinary learning, they are also fraught with broader concerns prevalent today about digital technologies.”

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Dalton, C. (2021). 3D Modeling for Historical Reconstruction. #DLFteach. Retrieved from https://dlfteach.pubpub.org/pub/vol2-dalton-3d-modeling-for-historical-reconstruction

https://dlfteach.pubpub.org/pub/vol2-dalton-3d-modeling-for-historical-reconstruction/release/1

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Clark, J. L. (2021). Creating an Equally Effective Alternative Action Plan for Immersive Technologies. #DLFteach. Retrieved from https://dlfteach.pubpub.org/pub/vol2-clark-creating-an-equally-effective-alternative-action-plan

https://dlfteach.pubpub.org/pub/vol2-clark-creating-an-equally-effective-alternative-action-plan/release/1

14
Oct
2021

emotional value of immersive virtual reality in education

categories: AR, VR
Makransky, G., & Lilleholt, L. (2018). A structural equation modeling investigation of the emotional value of immersive virtual reality in education. Educational Technology Research and Development, 66(5), 1141–1164. https://doi.org/10.1007/s11423-018-9581-2
an affective path in which immersion predicted presence and positive emotions, and a cognitive path in which immersion fostered a positive cognitive value of the task in line with the control value theory of achievement emotions.
business analyses and reports (e.g., Belini et al. 2016; Greenlight and Roadtovr 2016), predict that virtual reality (VR) could be the biggest future computing platform of all time.
better understanding of the utility and impact of VR when it is applied in an educational context.
several different VR systems exist, including cave automatic virtual envi-ronment (CAVE), head mounted displays (HMD) and desktop VR. CAVE is a projection-based VR system with display-screen faces surrounding the user (Cruz-Neira et al. 1992). As the user moves around within the bounds of the CAVE, the correct perspective and stereo projections of the VE are displayed on the screens. The user wears 3D glasses insidethe CAVE to see 3D structures created by the CAVE, thus allowing for a very lifelikeexperience. HMD usually consist of a pair of head mounted goggles with two LCD screens portraying the VE by obtaining the user ́s head orientation and position from a tracking system (Sousa Santos et al. 2008). HMD may present the same image to both eyes (monoscopic), or two separate images (stereoscopic) making depth perception possible. Like the CAVE, HMD offers a very realistic and lifelike experience by allowing the user to be completely surrounded by the VE. As opposed to CAVE and HMD, desktop VR does not allow the user to be surrounded by the VE. Instead desktop VR enables the user to interact with a VE displayed on a computer monitor using keyboard, mouse, joystick or touch screen (Lee and Wong 2014; Lee et al. 2010).
the use of simulations results in at least as good or better cognitive outcomes and attitudes
toward learning than do more traditional teaching methods (Bayraktar 2000; Rutten et al.
2012; Smetana and Bell 2012; Vogel et al. 2006). However, a recent report concludes that
there are still many questions that need to be answered regarding the value of simulations
in education (Natioan Research Council 2011). In the past, virtual learning simulations
were primarily accessed through desktop VR. With the increased use of immersive VR it is
now possible to obtain a much higher level of immersion in the virtual world, which
enhances many virtual experiences (Blascovich and Bailenson 2011).

an understanding of how to harness the emotional appeal of e-learning tools is a central issue for learning and instruction, since research shows that initial situ-ational interest can be a first step in promoting learning
several educational theories that describe the affective, emotional, and motivational factors that play a role in multimedia learning which are relevant for understanding the role of immersion in VR learning environments.

the cognitive-affective theory of learning with media (Moreno and
Mayer 2007),

and

the integrated cognitive affective model of learning with multimedia
(ICALM; Plass and Kaplan 2016)

control-value theory of achievement emotion CVTAE
https://psycnet.apa.org/record/2014-09239-007

Presence, intrinsic motivation, enjoyment, and control and active learning are the affective factors used in this study. defintions

The sample consisted of 104 students (39 females and 65 males; average age =23.8 years)
from a large European university.

immersive VR (Samsung Gear VR with Samsung Galaxy S6) and
the desktop VR version of a virtual laboratory simulation (on a standard computer). The
participants were randomly assigned to two groups: the first used the immersive VR
followed by the desktop VR version, and the second used the two platforms in the opposite
sequence.

The VR learning simulation used in this experiment was developed by the company Labster and designed to facilitate learning within the field of biology at a university level. The VR simulation was based on a realistic murder case in which the participants were required to investigate a crime scene, collect blood samples and perform DNA analysis in a high-tech laboratory in order to identify and implicate the murderer

 we conclude that the emotional value of the immersive VR version of the learning simulation is significantly greater than the desktop VR version. This is a major empirical contribution of this study.

 

06
May
2021

XR TEACHING OPPORTUNITY

categories: teaching, VR


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more on immersive teaching
https://blog.stcloudstate.edu/ims?s=immersive+teaching

30
Jul
2018

Immersive Storytelling and Learning

categories: Digital literacy, digital storytelling, educational technology, gamification, gaming

An Imaginary Interview with Lev Vygotsky on Immersive Storytelling and Learning

Ulla, Founder and CEO of ThingLink

https://medium.com/@ulla/an-imaginary-interview-with-lev-vygotsky-on-immersive-storytelling-and-learning-5bbb211c6e50

digital storytelling at the Festival Della Didattica Digitale (Digital Teaching Festival) in Italy.

the trending but undefined concepts of digital storytelling and immersive learning

definition

Storytelling is a logical form of thought. It is an analytical process including perception, labeling, organizing, categorizing real and imaginary objects and their real and imaginary relations in speech.

Q: What do you think immersive documentation technologies such as 360 images and videos can bring to this process?

V: 360 degree media and virtual reality are cultural-historically developed tools that mediate our relationship to the world in a new way. They expand the possible fields of perception transcending space and time. Perception precedes other psychological functions.

Definition

Immersive storytelling can be understood as an activity through which students use language to visualize relations and meaning in 360 degree digital environments. Naming or describing relations between objects in our field of perception using verbal or visual language awakens intellectual processes fundamental to learning.

Q: Would you say immersive storytelling is a form of creative play?

V: That is a possible interpretation. Play is a psychological process through which we create an imaginary situation or place, reflecting or separating objects and their actual meaning, or creating new meanings. The ability to digitally create and modify situations and environments can be understood as a form of play, opening a realm of spontaneity and freedom, connected with pleasure.

Q: Can robots help us learn? Is AI already the More Knowledgeable Other?

V: The More Knowledgeable Other (MKO) refers to anyone or anything who has a better understanding or a higher ability level than the learner, with respect to a particular task, process, or concept. If a robot with artificial intelligence can function as an MKO and support our problem solving, it can expand our Zone of Proximal Development.

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more on digital storytelling in this IMS blog
https://blog.stcloudstate.edu/ims?s=digital+storytelling
06
Jan
2018

immersive learning

categories: Digital literacy, educational technology, instructional technology, mobile learning, technology literacy

VR and AR: Learners as Creators and World Builders of Our Immersive Future

by Emory Craig and Maya Georgieva Friday, December 15, 2017https://er.educause.edu/blogs/2017/12/vr-and-ar-learners-as-creators-and-world-builders-of-our-immersive-future

By creating engaging 360° tours, students are not only learning these new tools for themselves but are also helping local organizations see the possibility of VR for marketing and public relations.

some key takeaways from the projects that we have seen:

  • Let the students lead: In all of these projects, students are taking the initiative. The institutions are providing the technology, the space, organizational vision, and in some cases, academic credit. At NYU Tandon, students organized the entire conference, doing publicity, registration, catering, and scheduling (see figure 4). They brought in a diverse group of speakers from academic, tech, and startup backgrounds. The event included TED-style spotlights, talks, workshops, and demos.
  • Don’t compromise on space: Brown University’s Granoff Center for the Creative Arts is designed to encourage cross-discipline collaboration. The Tandon event used the main auditorium and the flagship NYU MakerSpace. Space influences behavior and is crucial in driving collaboration and active participation. In addition, to produce VR and AR/MR experiences students need access to high-end technology and, in some cases, motion-capture studios and 360° cameras.
  • Create opportunities for social impact: Many of these programs are open to the local community or have been designed to have an impact outside higher education. At Emporia State, students are using VR and 360° video to help local businesses. The Gaspee Affair VR experience at Brown University will become a resource for teaching middle and high school students.
  • Showcase student work: So often in education, the work students do in a course is only seen by others in the same class. Like the example at Texas A&M, all of these experiences have a connection with their campus or larger community. VR and AR engender a level of excitement that gets students engaged with each other and encourage peer learning. It’s worth it to seek out opportunities to bring this work to community events.

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more on VR in education in this IMS blog

https://blog.stcloudstate.edu/ims?s=virtual+reality+education

07
Nov
2017

Key Issues in Teaching and Learning Survey

categories: Digital literacy, learning, mobile learning, teaching

The EDUCAUSE Learning Initiative has just launched its 2018 Key Issues in Teaching and Learning Survey, so vote today: http://www.tinyurl.com/ki2018.

Each year, the ELI surveys the teaching and learning community in order to discover the key issues and themes in teaching and learning. These top issues provide the thematic foundation or basis for all of our conversations, courses, and publications for the coming year. Longitudinally they also provide the way to track the evolving discourse in the teaching and learning space. More information about this annual survey can be found at https://www.educause.edu/eli/initiatives/key-issues-in-teaching-and-learning.

ACADEMIC TRANSFORMATION (Holistic models supporting student success, leadership competencies for academic transformation, partnerships and collaborations across campus, IT transformation, academic transformation that is broad, strategic, and institutional in scope)

ACCESSIBILITY AND UNIVERSAL DESIGN FOR LEARNING (Supporting and educating the academic community in effective practice; intersections with instructional delivery modes; compliance issues)

ADAPTIVE TEACHING AND LEARNING (Digital courseware; adaptive technology; implications for course design and the instructor’s role; adaptive approaches that are not technology-based; integration with LMS; use of data to improve learner outcomes)

COMPETENCY-BASED EDUCATION AND NEW METHODS FOR THE ASSESSMENT OF STUDENT LEARNING (Developing collaborative cultures of assessment that bring together faculty, instructional designers, accreditation coordinators, and technical support personnel, real world experience credit)

DIGITAL AND INFORMATION LITERACIES (Student and faculty literacies; research skills; data discovery, management, and analysis skills; information visualization skills; partnerships for literacy programs; evaluation of student digital competencies; information evaluation)

EVALUATING TECHNOLOGY-BASED INSTRUCTIONAL INNOVATIONS (Tools and methods to gather data; data analysis techniques; qualitative vs. quantitative data; evaluation project design; using findings to change curricular practice; scholarship of teaching and learning; articulating results to stakeholders; just-in-time evaluation of innovations). here is my bibliographical overview on Big Data (scroll down to “Research literature”https://blog.stcloudstate.edu/ims/2017/11/07/irdl-proposal/ )

EVOLUTION OF THE TEACHING AND LEARNING SUPPORT PROFESSION (Professional skills for T&L support; increasing emphasis on instructional design; delineating the skills, knowledge, business acumen, and political savvy for success; role of inter-institutional communities of practices and consortia; career-oriented professional development planning)

FACULTY DEVELOPMENT (Incentivizing faculty innovation; new roles for faculty and those who support them; evidence of impact on student learning/engagement of faculty development programs; faculty development intersections with learning analytics; engagement with student success)

GAMIFICATION OF LEARNING (Gamification designs for course activities; adaptive approaches to gamification; alternate reality games; simulations; technological implementation options for faculty)

INSTRUCTIONAL DESIGN (Skills and competencies for designers; integration of technology into the profession; role of data in design; evolution of the design profession (here previous blog postings on this issue: https://blog.stcloudstate.edu/ims/2017/10/04/instructional-design-3/); effective leadership and collaboration with faculty)

INTEGRATED PLANNING AND ADVISING FOR STUDENT SUCCESS (Change management and campus leadership; collaboration across units; integration of technology systems and data; dashboard design; data visualization (here previous blog postings on this issue: https://blog.stcloudstate.edu/ims?s=data+visualization); counseling and coaching advising transformation; student success analytics)

LEARNING ANALYTICS (Leveraging open data standards; privacy and ethics; both faculty and student facing reports; implementing; learning analytics to transform other services; course design implications)

LEARNING SPACE DESIGNS (Makerspaces; funding; faculty development; learning designs across disciplines; supporting integrated campus planning; ROI; accessibility/UDL; rating of classroom designs)

MICRO-CREDENTIALING AND DIGITAL BADGING (Design of badging hierarchies; stackable credentials; certificates; role of open standards; ways to publish digital badges; approaches to meta-data; implications for the transcript; Personalized learning transcripts and blockchain technology (here previous blog postings on this issue: https://blog.stcloudstate.edu/ims?s=blockchain

MOBILE LEARNING (Curricular use of mobile devices (here previous blog postings on this issue:

https://blog.stcloudstate.edu/ims/2015/09/25/mc218-remodel/; innovative curricular apps; approaches to use in the classroom; technology integration into learning spaces; BYOD issues and opportunities)

MULTI-DIMENSIONAL TECHNOLOGIES (Virtual, augmented, mixed, and immersive reality; video walls; integration with learning spaces; scalability, affordability, and accessibility; use of mobile devices; multi-dimensional printing and artifact creation)

NEXT-GENERATION DIGITAL LEARNING ENVIRONMENTS AND LMS SERVICES (Open standards; learning environments architectures (here previous blog postings on this issue: https://blog.stcloudstate.edu/ims/2017/03/28/digital-learning/; social learning environments; customization and personalization; OER integration; intersections with learning modalities such as adaptive, online, etc.; LMS evaluation, integration and support)

ONLINE AND BLENDED TEACHING AND LEARNING (Flipped course models; leveraging MOOCs in online learning; course development models; intersections with analytics; humanization of online courses; student engagement)

OPEN EDUCATION (Resources, textbooks, content; quality and editorial issues; faculty development; intersections with student success/access; analytics; licensing; affordability; business models; accessibility and sustainability)

PRIVACY AND SECURITY (Formulation of policies on privacy and data protection; increased sharing of data via open standards for internal and external purposes; increased use of cloud-based and third party options; education of faculty, students, and administrators)

WORKING WITH EMERGING LEARNING TECHNOLOGY (Scalability and diffusion; effective piloting practices; investments; faculty development; funding; evaluation methods and rubrics; interoperability; data-driven decision-making)

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learning and teaching in this IMS blog
https://blog.stcloudstate.edu/ims?s=teaching+and+learning

16
May
2017

directions immersive learning

categories: announcement, Bring Your Own Device BYOD, Digital literacy, information technology, instructional technology

Emerging Directions in Immersive Learning

Presented by: Maya Georgieva and Emory Craig, May 17, 1:00 – 2:00pm (EDT)

http://events.shindig.com/event/campus-tech

Digital Bodies cofounders Emory Craig and Maya Georgieva for an interactive session that will examine five developments in virtual, augmented, and mixed reality with the greatest potential to impact teaching and learning.   Ask your questions live as they explore how groundbreaking developments in VR, AR, MR, and artificial intelligence will power immersive technologies and transform learning.

Hololense $3000 and it is difficult to use outside. persistent digital objects
https://mixed.reality.news/news/whats-difference-between-hololens-meta-magic-leap-0171361/

https://events.google.com/io/

https://unity3d.com/sundance2017

education: new media, gaming

storytelling: immersive storytelling and AI

Jeremy Bailenson https://vhil.stanford.edu/

Julie Johnston – https://uits.iu.edu/learning-spaces

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