Future Trends of Virtual, Augmented Reality, and Games for Health

Serious game is now a multi-billion dollar industry and is still growing steadily in many sectors. As a major subset of serious games, designing and developing Virtual Reality (VR), Augmented Reality (AR), and serious games or adopting off-the-shelf games to support medical education, rehabilitation, or promote health has become a promising frontier in the healthcare sector since 2004, because games technology is inexpensive, widely available, fun and entertaining for people of all ages, with various health conditions and different sensory, motor, and cognitive capabilities. In this chapter, we provide the reader an overview of the book with a perspective of future trends of VR, AR simulation and serious games for healthcare

Piloting Multimodal Learning Analytics using Mobile Mixed Reality in Health Education

© 2019 IEEE. Mobile mixed reality has been shown to increase higher achievement and lower cognitive load within spatial disciplines. However, traditional methods of assessment restrict examiners ability to holistically assess spatial understanding. Multimodal learning analytics seeks to investigate how combinations of data types such as spatial data and traditional assessment can be combined to better understand both the learner and learning environment. This paper explores the pedagogical possibilities of a smartphone enabled mixed reality multimodal learning analytics case study for health education, focused on learning the anatomy of the heart. The context for this study is the first loop of a design based research study exploring the acquisition and retention of knowledge by piloting the proposed system with practicing health experts. Outcomes from the pilot study showed engagement and enthusiasm of the method among the experts, but also demonstrated problems to overcome in the pedagogical method before deployment with learners

Framework to Enhance Teaching and Learning in System Analysis and Unified Modelling Language

Cowling, MA ORCiD: 0000-0003-1444-1563; Munoz Carpio, JC ORCiD: 0000-0003-0251-5510Systems Analysis modelling is considered foundational for Information and Communication Technology (ICT) students, with introductory and advanced units included in nearly all ICT and computer science degrees. Yet despite this, novice systems analysts (learners) find modelling and systems thinking quite difficult to learn and master. This makes the process of teaching the fundamentals frustrating and time intensive. This paper will discuss the foundational problems that learners face when learning Systems Analysis modelling. Through a systematic literature review, a framework will be proposed based on the key problems that novice learners experience. In this proposed framework, a sequence of activities has been developed to facilitate understanding of the requirements, solutions and incremental modelling. An example is provided illustrating how the framework could be used to incorporate visualization and gaming elements into a Systems Analysis classroom; therefore, improving motivation and learning. Through this work, a greater understanding of the approach to teaching modelling within the computer science classroom will be provided, as well as a framework to guide future teaching activities

Virtual, augmented reality and learning analytics impact on learners, and educators: A systematic review

Virtual and Augmented Reality technologies have emerged as promising tools in the education sector, offering new possibilities for immersive learning experiences. Many researchers have focused their research on examining the potential of these technologies in education from different perspectives. However, it was discovered that there are research gaps in current systematic reviews regarding the examination of the impact of Virtual, Augmented Reality and Learning Analytics utilization on various types of learners and educators across different educational systems, including K-12 Education, Higher Education, Vocational, and Industrial Training, in addition to the educational systems’ research tendencies and their adoption of these technologies. Therefore, our study aims to address these gaps by searching various studies in Google Scholar, Scopus, and the IEEE Xplore databases. By following the PRISMA protocol, 150 research papers were selected for analysis, and our findings show that improving motivation and attention, improving learners’ understanding & performance, and increasing knowledge retention are the most significant impacts on all types of learners. For educators, we found that these technologies have a prominent effect on assisting educators in teaching and training and reducing the burden. Furthermore, we discovered that Higher Education and Augmented Reality were the dominant educational system and the technology type in the selected studies. We also found that most Virtual and Augmented reality researchers preferred to use questionnaires and online surveys for data collection. We further identified that analyzing learners’ traces when interacting with Virtual and Augmented Reality applications can improve learners’ performance and learning experience. Our review offers valuable insights into how integrating these technologies with Learning Analytics can benefit learners and educators and how educational institutions and industrial organizations can take advantage of adopting these technologies

Virtual worlds in Australian and New Zealand higher education: remembering the past, understanding the present and imagining the future

3D virtual reality, including the current generation of multi-user virtual worlds, has had a long history of use in education and training, and it experienced a surge of renewed interest with the advent of Second Life in 2003. What followed shortly after were several years marked by considerable hype around the use of virtual worlds for teaching, learning and research in higher education. For the moment, uptake of the technology seems to have plateaued, with academics either maintaining the status quo and continuing to use virtual worlds as they have previously done or choosing to opt out altogether. This paper presents a brief review of the use of virtual worlds in the Australian and New Zealand higher education sector in the past and reports on its use in the sector at the present time, based on input from members of the Australian and New Zealand Virtual Worlds Working Group. It then adopts a forward-looking perspective amid the current climate of uncertainty, musing on future directions and offering suggestions for potential new applications in light of recent technological developments and innovations in the area

A Systematic Review of Augmented Reality in Health Sciences: A Guide to Decision-Making in Higher Education

The objective of this study was to investigate the usability of the augmented reality (AR) in higher education in the area of health sciences to describe what type of interventions have been developed, their impact on various psychopedagogical aspects of the students as well as the main advantages, disadvantages and challenges in incorporating AR in the teaching-learning process. A systematic review was carried out in the CINAHL, PsycINFO, MEDLINE,Web of Science databases and the Google Scholar search engine. The search was limited to original research articles written in English, Spanish or Portuguese since 2014. The quality of the selected articles (n = 19) was assessed using the Mixed Methods Appraisal Tool (MMAT). The applications and electronic devices used and the measurement instruments used were described. The use of AR made it easier for students to acquire skills, especially in courses with a high component of three-dimensional visualization, and positively influenced various aspects of the learning process such as motivation, satisfaction or autonomous learning. As an educational technological tool applied to higher education in health sciences, AR improves the teaching-learning process by influencing it in a multidimensional wayS

Using Mobile Augmented Reality to Enhance Health Professional Practice Education

The use of augmented reality (AR) as a new multimedia networking technology is increasing. An investigation was made of the value of using AR as a tool to support the teaching of clinical practice skills. A series of mobile AR resources were created for use on tablet computers and smartphones to supplement clinical skills teaching in the laboratory (using image recognition), and clinical practice (using geolocation). Undergraduate students in nursing, physiotherapy, and occupational therapy tested these resources in lab sessions, a location-based campus exercise, and during clinical practice experiences. Following this, a post-exposure web survey and focus group interviews were undertaken to appraise the value of these tools. Results demonstrated that the potential for students to use technologies they already possess in AR based m-learning may offer significant advantages, and offer a practical technique to engage learners. However, these technologies remain in an early stage of development and more robust implementations and sustainable platforms are required for mainstream educational use

Situating Vocational Learning and Teaching Using Digital Technologies - A Mapping Review of Current Research Literature

Context: The ongoing change of work life by digital technologies requires vocational education and training (VET) to adapt constantly. This "digital transformation" of work life gives therefore rise to the question how to advance the use of digital technologies in VET. A possible answer may be found by considering that VET should be transferable to work life. This goal may be achieved by coupling educational activities with examples of work situations. Such situated education may be accomplished by using digital technologies. Until five years ago this mainly consisted in using digital photos, videos, and the internet for educational scaffolding or learning tasks. In research this situated digital VET taxonomy is currently expanding. Hence, the use of digital technologies in VET may be advanced by considering current research literature on situated digital VET.Method: Here, we have searched and reviewed scientific publications on situated digital VET published in the past five years. In the peer-reviewed publications that we had selected, we first identified which digital technologies were used for situated VET and which educational activities were coupled with work situation examples. Subsequently, we identified the categories to which the publications could be grouped together by analyzing the content of their full texts. Results: Situated digital VET was accomplished in about half of the reviewed publications by a digital video on a work situation, and in almost half of the publications by a work situation presented in a 3D virtual environment. Digital videos on work situations mostly served all types of learning tasks and rather rarely educational scaffolding. Work situations presented in 3D virtual environments mostly served cognitive or behavioral learning tasks and never educational scaffolding. Situated digital VET was moreover accomplished by using the digital representation of a work situation that either had occurred previously or that was immediately taking place. Conclusions: Our findings suggest that retrospectively and immediately situated digital VET may be the two categories of an up-to-date basic taxonomy of situated digital VET. Hence, an important question to investigate for advancing the use of digital technologies in VET is the following: Which of the two identified types of situated digital VET can facilitate which kind of vocational learning? Based on the reviewed publications we are not able to give any answers to this. Hence, there is a massive need to investigate which kind of vocational learning can be facilitated by retrospectively, and which by immediately situated digital VET.

Augmented Reality in Nurse Anesthesia Education

Research shows that the addition of extended reality (XR) in healthcare education is advantageous as it enhances the learning experience and improves students’ knowledge and motivation to learn. Its use has been documented in nearly all areas of healthcare education but is much less explored in the realm of anesthesia. This research project focuses on a branch of XR known as augmented reality (AR) and its use as an adjunct learning tool in the curricula for nurse anesthesia. Keller’s Attention, Relevance, Confidence, and Satisfaction (ARCS) Model of Motivation guided the design of this project to understand the impact AR technology had on second year student registered nurse anesthetists’ (SRNA) motivation towards learning. Students used an AR mobile application to interact with a realistic anatomical structure of the human larynx and completed a related worksheet. A post-assessment Likert-type Instructional Materials Motivation Survey (IMMS) was used to assess AR’s impact on learner motivation as it relates to each of the four ARCS model constructs. Each construct yielded a high average score amongst participants, thereby indicating a positive learning experience. The results imply that AR enhances current learning modalities and may directly influence students’ motivation to learn. The evidence is supportive for the use of AR as an adjunct learning tool in nurse anesthesia education. Future studies are needed to evaluate the efficacy of AR as a result of its integration into curricula