Posts Tagged ‘immersive’

Cross Reality (XR)

Ziker, C., Truman, B., & Dodds, H. (2021). Cross Reality (XR): Challenges and Opportunities Across the Spectrum. Innovative Learning Environments in STEM Higher Education, 55–77. https://doi.org/10.1007/978-3-030-58948-6_4
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7948004/

For the purpose of this chapter, Cross Reality or XR refers to technologies and applications that involve combinations of mixed reality (MR), augmented reality (AR), virtual reality (VR), and virtual worlds (VWs). These are technologies that connect computer technology (such as informational overlays) to the physical world for the purposes of augmenting or extending experiences beyond the real. Especially relevant to the definition of XR is the fact that this term encompasses a wide range of options for delivering learning experiences, from minimal technology and episodic experiences to deep immersion and persistent platforms. The preponderance of different terms for slightly different technologies indicate that this is a growth area within the field. Here we provide a few definitions of these technologies.

MR—Mixed reality refers to a blend of technologies used to influence the human perception of an experience. Motion sensors, body tracking, and eye tracking interplay with overlaid technology to give a rich and full version of reality displayed to the user. For example, technology could add sound or additional graphics to an experience in real time. Examples include the Magic Leap One and Microsoft HoloLens 2.0. MR and XR are often used interchangeably.

AR—Augmented reality refers to technology systems that overlay information onto the real world, but the technology might not allow for real-time feedback. As such, AR experiences can move or animate, but they might not interact with changes in depth of view or external light conditions. Currently, AR is considered the first generation of the newer and more interactive MR experiences.

VR—Virtual reality, as a technological product, traces its history to approximately 1960 and tends to encompass user experiences that are visually and auditorily different from the real world. Indeed, the real world is often blocked from interacting with the virtual one. Headsets, headphones, haptics, and haptic clothing might purposely cut off all input except that which is virtual. In general, VR is a widely recognizable term, often found in gaming and workplace training, where learners need to be transported to a different time and place. VR experiences in STEM often consist of virtual labs or short virtual field trips.

VW—Virtual worlds are frequently considered a subset of VR with the difference that VWs are inherently social and collaborative; VWs frequently contain multiple simultaneous users, while VRs are often solo experiences. Another discrimination between virtual reality and virtual worlds is the persistence of the virtual space. VR tends to be episodic, with the learner in the virtual experience for a few minutes and the reality created within the experience ends when the learner experience ends. VWs are persistent in that the worlds continue to exist on computer servers whether or not there are active avatars within the virtual space (Bell ). This discrimination between VR and VW, however, is dissolving. VR experiences can be created to exist for days, and some users have been known to wear headsets for extended periods of time. Additionally, more and more VR experiences are being designed to be for game play, socialization, or mental relaxation. The IEEE VR 2020 online conference and the Educators in VR International Summit 2020 offered participants opportunities to experience conference presentations in virtual rooms as avatars while interacting with presenters and conference attendees (see Sect. 2.5 for more information).

CVEs—Collaborative virtual environments are communication systems in which multiple interactants share the same three-dimensional digital space despite occupying remote physical locations (Yee and Bailenson ).

Embodiment—Embodiment is defined by Lindgren and Johnson-Glenberg () as the enactment of knowledge and concepts through the activity of our bodies within an MR (mixed reality) and physical environment

https://hyp.is/mBiunvx3EeudElMRwHm5dQ/www.ncbi.nlm.nih.gov/pmc/articles/PMC7948004/ 

Human-Centered Design philosophy that involves putting human needs, capabilities, and behavior first (Jerald 2018: 15). XR provides the opportunity to experience just-in-time immersive, experiential learning that uses concrete yet exploratory experiences involving senses that result in lasting memories. Here we discuss opportunities for social applications with XR. 

 

https://hyp.is/wJSoFPx3Eeu1mAPmeAp2tQ/www.ncbi.nlm.nih.gov/pmc/articles/PMC7948004/ 

XR learner activities are usually created for individual use, which may or may not need to be simultaneously experienced as a class together at the same time or place with the instructor. Activities can be designed into instruction with VR headsets, high-resolution screens, smartphones, or other solo technological devices for use inside and outside of the classroom. 

 

https://hyp.is/wJSoFPx3Eeu1mAPmeAp2tQ/www.ncbi.nlm.nih.gov/pmc/articles/PMC7948004/ 

Ready to go relationship between STEM courses and XR. In bullet points! 

 

https://hyp.is/wJSoFPx3Eeu1mAPmeAp2tQ/www.ncbi.nlm.nih.gov/pmc/articles/PMC7948004/ 

Do we address the challenges in the grant proposal? 

some learners will be held back from full XR activity by visual, physical, and social abilities such as stroke, vertigo, epilepsy, or age-related reaction time. It should also be noted that the encompassing nature of VR headsets might create some discomfort or danger for any learners as they can no longer fully see and control their body and body space. 

Designing XR into Higher Education

Immersive Learning Environments: Designing XR into Higher Education

Heather Elizabeth Dodds

https://edtechbooks.org/id_highered/immersive_learning_e

The terms ‘extended reality’ or ‘cross reality’ refer to “technologies and applications that involve combinations of mixed reality (MR), augmented reality (AR), virtual reality (VR), and virtual worlds (VWs)” (Ziker, Truman, & Dodds, 2021, p. 56). Immersive learning definitions draw from Milgram and Kishino’s key taxonomy (1994) emphasizing the continuum of experiences that range from where a computer adds to a learner’s reality with overlays of information, or a computer experientially transports a learner to a different place and time by manipulating sight and sound.

VR Design Model

three different design models (see Figure 3): the ADDIE Design Model (Branson, 1978), Design Thinking (Brown & Wyatt, 2010) from user experience (UX), and the 3D Learning Experience Design Model (Kapp & O’Driscoll, 2009).

Serrat (2008) defines storytelling as “the vivid description of ideas, beliefs, personal experiences, and life-lessons through stories or narratives that evoke powerful emotions and insights” (p.1).

The foundational theory for most XR experiences is experiential learning theory. In cases where users create within XR, constructivist learning theory also applies.

XR experiences can include a story arc (See Appendix D), a tutorial of user affordances, intentional user actions, and place the user into first or third person experiences (Spillers, 2020).

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more on immersive in this IMS blog
https://blog.stcloudstate.edu/ims?s=immersive+
more on ID in this IMS blog
https://blog.stcloudstate.edu/ims?s=instructional+design

Dissection Simulator

Dissection Simulator: Pig Edition

https://www.oculus.com/experiences/quest/3798694340237342/

Oculus Quest 2 plays a VictoryXR app ($24.99) where you can cut the pig for not gastronomical purposes (see pic below)

May be an image of outdoors

(watch the video)

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also a Shark dissection simulator

https://www.linkedin.com/posts/activity-6826504955696939008-YUF2

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more on simulations in this IMS blog
https://blog.stcloudstate.edu/ims?s=simulations

AR blockchain doritos

“Using #augmentedreality (#AR) and #blockchain technologies, the game featured ‘Vatoms’, virtual objects that players can interact with.
Due to pandemic restrictions, the game, originally developed as an outdoor activity in other markets, was adapted to allow people to hunt for the packs in and around their own homes. Packs contained either Playstation symbol chips or an instant-win prize, which would then be stored in a digital wallet.”

Imagine, if it was not Doritos, but bones to build a skeletal system (Biology, nursing, medicine, etc.), philosophers (Philosophy, political science, social sciences) and the rewards or badges in the leaderboard. #gaming and #gamification

Read more at: https://www.campaignasia.com/article/why-11-million-filipinos-went-hunting-for-virtual-doritos/470820

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