Immersive vs. non-immersive virtual reality learning environments

Author(s):  
Diego Vergara-Rodriguez ◽  
Alejandro Gomez-Asenjo ◽  
Pablo Fernandez-Arias ◽  
Ana Isabel Gomez-Vallecillo ◽  
Victoria Eugenia Lamas-Alvarez ◽  
...  
Author(s):  
Natalie Nussli ◽  
Kevin Oh ◽  
Nicole Cuadro ◽  
Melisa Kaye

This chapter describes a study that was conducted in a semi-immersive desktop virtual reality environment. The study investigated teacher trainees' perceptions of their mental effort in Second Life, their satisfaction with the communication modalities, and their perceived social behavioral changes. In the first event, only the instructor (host) used voice to communicate while all participants as well as the in-text facilitator (co-host) used text chat only. In the second event, not only did both hosts use voice, but the participants also had the option to use voice rather than text. The majority of teacher trainees appreciated the freedom to choose either modality. The integration of voice was perceived as humanizing the discussion, increasing the flow, and making the conversation more engaging. However, the addition of multiple voices was believed to increase their mental effort. While some teacher trainees felt more relaxed and more open in a virtual discussion, others reported a lack of attention and honesty as well as a tendency to ignore social conventions.


1999 ◽  
Vol 8 (3) ◽  
pp. 293-316 ◽  
Author(s):  
Marilyn C. Salzman ◽  
Chris Dede ◽  
R. Bowen Loftin ◽  
Jim Chen

Designers and evaluators of immersive virtual reality systems have many ideas concerning how virtual reality can facilitate learning. However, we have little information concerning which of virtual reality's features provide the most leverage for enhancing understanding or how to customize those affordances for different learning environments. In part, this reflects the truly complex nature of learning. Features of a learning environment do not act in isolation; other factors such as the concepts or skills to be learned, individual characteristics, the learning experience, and the interaction experience all play a role in shaping the learning process and its outcomes. Through Project Science Space, we have been trying to identify, use, and evaluate immersive virtual reality's affordances as a means to facilitate the mastery of complex, abstract concepts. In doing so, we are beginning to understand the interplay between virtual reality's features and other important factors in shaping the learning process and learning outcomes for this type of material. In this paper, we present a general model that describes how we think these factors work together and discuss some of the lessons we are learning about virtual reality's affordances in the context of this model for complex conceptual learning.


2017 ◽  
Vol 27 (1) ◽  
pp. 24-35 ◽  
Author(s):  
Evelyn K. Orman ◽  
Harry E. Price ◽  
Christine R. Russell

Acquiring nonverbal skills necessary to appropriately communicate and educate members of performing ensembles is essential for wind band conductors. Virtual reality learning environments (VRLEs) provide a unique setting for developing these proficiencies. For this feasibility study, we used an augmented immersive VRLE to enhance eye contact, torso movement, and gestures of novice wind band conductors. Ten undergraduates randomly assigned to no VRLE ( n = 3), VRLE with head tracking ( n = 4), or VRLE without ( n = 3) head tracking received eight treatment sessions over a 4-week period. While participants conducted a live ensemble, their eye contact, torso movements, and gestures were measured. A comparison of pretest and posttest scores showed that students using the augmented immersive VRLE with head tracking demonstrated greater conducting skill improvement than those not using virtual reality.


2021 ◽  
Author(s):  
Andreas Marougkas ◽  
Christos Troussas ◽  
Akrivi Krouska ◽  
Cleo Sgouropoulou

Traditional learning methods frequently fail to provoke students’ interest, stimulate their enjoyment and encourage them to participate in learning activities, resulting in discomfort, distractions, and disengagement, if not quitting. Education’s goal is to improve the quality and effectiveness of teaching and learning methods. This paper aims to present a framework based on Virtual Reality (VR) technology and contemporary Head Mounted Displays, that incorporates game-based techniques and adaptive design according to the student’s profile. As a result, this paper analyzes the relevant literature, the VR apparatus, the importance of VR, as well as gamification, personalization and adaptive design in education, which are the learning foundations on which the framework is based. Finally, the framework’s modules and structure are presented, taking into account all of the previously mentioned parameters. This novel framework aspires to serve as a basis for educational applications that use immersive Virtual Reality technologies to transform learning procedures into entertaining, engaging, enjoyable, and effective experiences.


Author(s):  
Zeynep Tacgin ◽  
Barney Dalgarno

The recent increase in affordability of immersive virtual reality learning environments (IVRLEs) grows the interests of university, school, and industry training contexts. Due to their unique affordances, these environments have the potential to lead to a paradigm shift in learning experience design. The absence of learning design models, however, represents a significant challenge to the widespread and effective utilisation of this technology platform. Several researchers have proposed design models for virtual reality learning environments (VRLEs). The majority of these models don't explicitly consider the unique characteristics of Immersive environments. This research describes an instructional design model for IVRLEs, which draws upon Dalgarno and Lee's affordance model for VRLE and Tacgin's IVRLE development stages for teaching concepts and procedures. The specific learning strategies and affordances of IVRLEs are matched with the features of current IVR systems and technologies.


Author(s):  
Miriam Mulders ◽  
Josef Buchner ◽  
Michael Kerres

Immersive Virtual Reality (iVR) technologies can enrich teaching and learning environments, but their use is often technology-driven and instructional con-cepts are missing. The design of iVR-technology-supported learning environ-ments should base on both, an evidence-based educational model as well as on features specific to iVR. Therefore, the article provides a framework for the use of iVR in learning environments based on the Cognitive Theory of Multi-media Learning (CTML). It outlines how iVR learning environments could and should be designed based on current knowledge from research on Multimedia Learning.


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