Browsing by Author "Dingliana, John"

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    Augmented Reality Rehabilitation for People with Osteoporosis: Squat exergame (a demo)
    (The Eurographics Association, 2023) Thuilier, Eléa; Carey, John J.; Dingliana, John; Dempsey, Mary; Whelan, Bryan; Biggins, Shane; Brennan, Attracta; Abey Campbell; Claudia Krogmeier; Gareth Young
    In Ireland, osteoporosis is one of the greatest societal and economic health challenges, affecting between 300,000 and 500,000 people [CJ23]. A 2019 European report noted that Ireland has one of the highest rates of fracture in Europe, while the costs associated with managing fractures was 7.2% of national healthcare [JA21, JA22]. Physical exercises are considered to be a powerful non-pharmacological strategy for people with osteoporosis and/or those who are at risk of falling [Dio14]. Notwithstanding the positive impact of physical exercise, the participation in and adherence to an exercise regimen by older adults is often low due to inconvenience (i.e., lack of time, lack of motivation, accessibility issues), fear (i.e., falling, safety), cost and/or boredom [OYWALSRDKV18]. Exergames are defined as games requiring the participant to be physically active; they can be delivered through augmented reality (AR)/virtual reality (VR) [Oh10]. Despite the potential of AR task-oriented physical therapy training and exergames for people with osteoporosis, there is a notable paucity of research in this area [GNG20]. As part of our research, five physical therapy exercises targeting older adults with osteoporosis have been approved by a chartered physiotherapist, an occupational therapist and two Rheumatologist consultants at Galway University Hospital. We are currently in the process of mapping these physical therapy exercises into a set of five AR exergames. The design of these AR exergames is underpinned by a systematic literature review (in the final stages of publication) and existing guidelines. A formal investigation of the impact of AR exergames in improving balance and reducing the likelihood of falls for people with osteoporosis will take place next year, with control and intervention groups. Our demonstration is a first version of one of these AR exergames which reproduces a squat exercise. During this exergame, the player wears an AR headset (Microsoft Hololens 2). When they start the exergame, a menu of different levels is displayed. The player selects the level appropriate to their abilities, after which a series of clouds appear and move toward them. The goal is for the player to avoid the clouds using a squat movement. As they perform the exercise in a gamified context, the relevant biomechanical points will be checked to ensure correct alignment and the delivery of appropriate feedback. To check the status of the biomechanical points, this exergame uses a body tracking camera (Azure Kinect 2) to provide direct and real-time feedback. Ultimately, this squat exercise AR exergame will be incorporated into a series of exergames, which will adapt to the capabilities and preferences of the player with osteoporosis.
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    Interactive X-Ray Vision Mediated Reality
    (The Eurographics Association, 2023) Jalan, Priyansh; Dingliana, John; Abey Campbell; Claudia Krogmeier; Gareth Young
    In this poster, we explore a novel approach to improve the spatial perception of embedded virtual objects in a mixed reality environment by manipulating the material appearance of real objects. Addressing the challenge of establishing a perceptually robust connection to the real world in situated visualizations, our approach provides a means for seamlessly integrating virtual objects with their real-world counterparts. This approach, which we refer to as glass phantom rendering, aims, in particular, to improve the perception of containment, emulating the characteristics of real-world glass-encased exhibits in museums. Visual results from our proof-of-concept implementation demonstrate an enhanced perception of virtual objects being embedded inside real-world objects, setting the stage for further exploration to optimize and more deeply explore this and other similar effects in future work.
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    TangibleMRCreate: Intuitive Authoring of Mixed Reality Content
    (The Eurographics Association, 2023) Li, Xuyu; Dingliana, John; Abey Campbell; Claudia Krogmeier; Gareth Young
    In this poster, we present work-in-progress exploring the intuitive authoring of Mixed Reality (MR) content using physical object manipulation, tangible 3D user interfaces, and the creation of MR within MR itself. To assess this approach, we implemented an MR-based system enabling novice users to tangibly create MR scenes within MR. The system, prototyped on the Microsoft HoloLens 2, allows users to create digital scenes by manipulating a physical box and a tangible 3D user interface. A pilot study was conducted to provide a preliminary evaluation and to inform future system development and deeper study design.