Is movement better? Comparing sedentary and motion-based game controls for older adults

Providing cognitive and physical stimulation for older adults is critical for their well-being. Video games offer the opportunity of engaging seniors, and research has shown a variety of positive effects of motion-based video games for older adults. However, little is known about the suitability of motion-based game controls for older adults and how their use is affected by age-related changes. In this paper, we present a study evaluating sedentary and motion-based game controls with a focus on differences between younger and older adults. Our results show that older adults can apply motion-based game controls efficiently, and that they enjoy motion-based interaction. We present design implications based on our study, and demonstrate how our findings can be applied both to motion-based game design and to general interaction design for older adults. Copyright held by authors

Full-body motion-based game interaction for older adults

Older adults in nursing homes often lead sedentary lifestyles, which reduces their life expectancy. Full-body motion-control games provide an opportunity for these adults to remain active and engaged; these games are not designed with age-related impairments in mind, which prevents the games from being leveraged to increase the activity levels of older adults. In this paper, we present two studies aimed at developing game design guidelines for full-body motion controls for older adults experiencing age-related changes and impairments. Our studies also demonstrate how full-body motion-control games can accommodate a variety of user abilities, have a positive effect on mood and, by extension, the emotional well-being of older adults. Based on our studies, we present seven guidelines for the design of full-body interaction in games. The guidelines are designed to foster safe physical activity among older adults, thereby increasing their quality of life. Copyright 2012 ACM

Custom-designed motion-based games for older adults: a review of literature in human-computer interaction

Many older adults, particularly persons living in senior residences and care homes, lead sedentary lifestyles, which reduces their life expectancy. Motion-based video games encourage physical activity and might be an opportunity for these adults to remain active and engaged; however, research efforts in the field have frequently focused on younger audiences and little is known about the requirements and benefits of motion-based games for elderly players. In this paper, we present an overview of motion-based video games and other interactive technologies for older adults. First, we summarize existing approaches towards the definition of motion-based video games – often referred to as exergames – and suggest a categorization of motion-based applications into active video games, exergames, and augmented sports. Second, we use this scheme to classify case studies addressing design efforts particularly directed towards older adults. Third, we analyze these case studies with a focus on potential target audiences, benefits, challenges in their deployment, and future design opportunities to investigate whether motion-based video games can be applied to encourage physical activity among older adults. In this context, special attention is paid to evaluation routines and their implications regarding the deployment of such games in the daily lives of older adults. The results show that many case studies examine isolated aspects of motion-based game design for older adults, and despite the broad range of issues in motion-based interaction for older adults covered by the sum of all research projects, there appears to be a disconnect between laboratory-based research and the deployment of motion-based video games in the daily lives of senior citizens. Our literature review suggests that despite research results suggesting various benefits of motion-based play for older adults, most work in the field of game design for senior citizens has focused on the implementation of accessible user interfaces, and that little is known about the long-term deployment of video games for this audience, which is a crucial step if these games are to be implemented in activity programs of senior residences, care homes, or in therapy

The Use of digital games to enhance the physical exercise activity of the elderly : a case of Finland

According to the World Health Organization (WHO), population ageing is a global phenomenon, which brings both challenges and opportunities for society. The current longer expected lifespan can create opportunities for the elderly to contribute in many ways to their families and communities. However, it greatly depends on their quality of life, which is affected by many factors, including physical and functional health, social well-being, and cognitive abilities. The WHO (2012) states that physical health is one of the indicators for the elderly’s quality of life, and it declines with increasing age. Participation in regular physical exercises can help the elderly improve their physical and mental health, and this has been aided by the use of modern technologies to promote the elderly’s physical and functional health. Of these latest technologies, digital games have shown promise to improve and enhance the elderly’s physical activities through fun and engaging gameplay. The literature highlights that some commercial games in the market (e.g. Microsoft Kinect- Sports and Nintendo Wii Sports games) have the potential to improve the elderly’s physical health such as gait, balance, and fall prevention. However, researchers argue that these commercial games are not designed specifically for the elderly and their physical exercise activities. They state that most commercial games are not user-friendly for the elderly whose functional and physical abilities are limited due to their advanced years. The literature points out that more studies need to be undertaken to understand the usability and usefulness of digital games for physical exercise activities so that game designers can create elderly-friendly digital games in the future. In Finland, the government has been focusing on promoting healthy ageing and increasing home care services for the elderly. In recent years, Finnish researchers have used digital games to promote older Finns’ healthy and active ageing. The existing literature, whilst showing the potential of digital games for elderly Finns’ physical health, also acknowledges further research is needed particularly in the context of Finland. Thus, in this study, we aimed at investigating digital games to specifically assess their applications for older Finns’ physical activities, focusing on the quality of users’ experiences, and their reported ease of use and perceived usefulness. We used the mixed methods approach, which applies both qualitative and quantitative research methods. The study design included four stages: requirements gathering, analysis and design, prototyping, and evaluation. Firstly, we conducted pre-studies to elicit users’ requirements. This was followed by the analysis of the resulting data to identify trends and patterns, which fuelled ideas in the brainstorming game design and development phases. The final product was a digital game-based physical exercise called the Skiing Game. We then evaluated the Skiing Game in Finland with 21 elderly Finns (M=7, F=14, Average Age =76). By using questionnaires, observation, and interviews, we investigated user experiences, focusing on the game’s usability, and usefulness for enhancing the physical activity and wellbeing of the elderly. We also conducted a comparative test of the Skiing Game in Japan with 24 elderly Japanese participants (M=12, F=12, Average Age = 72) to further understand non-Finnish elderly users’ experiences. The findings from the usability study of the Skiing Game in Finland demonstrated that elderly Finns had a positive experience in the gameplay, and their motivation was noticeably high. It also confirmed that elderly Finns have a genuine interest in digital game-based exercises and strong intentions to play digital games as a form of physical exercise in the future. Although prior to the study most of them had negative views and misconceptions about digital games, after the gameplay their attitudes were decidedly positive. They acknowledged that whilst playing digital games could be an alternative way of exercising for them their use would primarily be when they don’t have access to their usual non-digital physical exercise. The Japanese usability of the Skiing Game showed that the elderly Japanese people also had positive user experiences in playing digital games, and also intend to use them in the future. Similarly, after playing the game they reported that their attitudes towards digital games become positive, and indicated playing digital games could be an alternative way of exercising. Although the comparison of the two studies suggests that the elderly Finns had relatively more positive experiences whilst playing the Skiing Game, compared to their Japanese counterparts, in general, both groups had a positive experience in the gameplay and showed interest in digital games as an alternative exercise. Based on the usability lessons learned from these two studies, recommendations for practitioners and designers regarding improvements in game design and development are made in this report. Implementing these modifications into future designs and further development of digital games for the elderly will improve their commercial viability and user uptake. The findings from this study can provide valuable insights, particularly for Finnish policymakers and healthcare practitioners who are keen to introduce digital games into the aged-care sector in Finland. The studies have also provided valuable insights into the optimal methods for introducing Finnish digital games to international markets, in particular, digital games tailored specifically for the physical exercise needs and motivations of the elderly. By taking into consideration the limitations of the study, we provide our future studies and further improvements of the game to be conducted

A scoping review and a taxonomy of the use of motion-based technology centered on the end user. A special focus on elderly health

Motion-based technology (MBT) has been applied in the last decades with enormous success in a high number of applications. Its use continues growing and is specially interesting in the health area. Nowadays, its employment is being more and more specialised with respect to the profile of the end user (i.e., child, adolescent/teenager, adult or elderly). This paper first reviews the use of MBT centered in the end user from a global perspective. It also proposes a taxonomy that allows cataloguing the MBT employment directed to the end user. Then, from these results, the paper centers the review on the MBT application aiming to improve the health of elderly. The results highlighted in this paper can help to a better understanding of MBT, especially when it is applied thinking in elderly as the end users.This study is partially funded by the Universidad de Málaga with the national project Bio4Res (PID2021-125184NB-I00) from the Ministerio de Ciencia e Innovaci ́on de Espa ̃na (MCIN). Funding for open access charge: Universidad de Málaga / CBUA

Motion-Based Video Games for Older Adults in Long-Term Care

Older adults in residential care often lead sedentary lifestyles despite physical and cognitive activities being crucial for their well-being. Care facilities face the challenge of encouraging their residents to participate in leisure activities, but as the impact of age-related changes grows, few activities remain accessible. Video games in general – and motion-based games in particular – hold the promise of providing mental, physical and social stimulation for older adults. However, the accessibility of commercially available games for older adults is not considered during the development process. Therefore, many older adults are unable to obtain any of the benefits. In my dissertation, this issue is addressed through the development of motion-based game controls that specifically address the needs of older adults. The first part of this thesis lays the foundation by providing an overview of motion-based game interaction for older adults. The second part demonstrates the general feasibility of motion-based game controls for older adults, develops full-body motion-based and wheelchair-based game controls, and provides guidelines for accessible motion-based game interaction for institutionalized older adults. The third part of this thesis builds on these results and presents two case studies. Motion-based controls are applied and further evaluated in game design projects addressing the special needs of older adults in long-term care, with the first case study focusing on long-term player engagement and the role of volunteers in care homes, and the second case study focusing on connecting older adults and caregivers through play. The results of this dissertation show that motion-based game controls can be designed to be accessible to institutionalized older adults. My work also shows that older adults enjoy engaging with motion-based games, and that such games have the potential of positively influencing them by providing a physically and mentally stimulating leisure activity. Furthermore, results from the case studies reveal the benefits and limitations of computer games in long-term care. Fostering inclusive efforts in game design and ensuring that motion-based video games are accessible to broad audiences is an important step toward allowing all players to obtain the full benefits of games, thereby contributing to the quality of life of diverse audiences

Master of Science

thesisAnimated avatars are becoming increasingly prevalent in three-dimensional virtual environments due to modern motion tracking hardware and their falling cost. As this opens up new possibilities and ways of interaction within such virtual worlds, an important question that arises is how does the presence of an avatar alter the perception and performance of an action in a virtual environment when a user interacts with an object in the virtual environment through their avatar. This research attempts to answer this question by studying the effects of presence of an animated self-avatar in an object manipulation task in a virtual environment. Two experiments were conducted as part of this research. In Experiment 1, the feasibility of an interaction system involving animated self-avatars to manipulate objects in a virtual environment was examined. It was observed that the presence of self-avatars had an affect on the performance of a subset of subjects. Male subjects with gaming experience performed similarly across both visual feedback conditions while female subjects who also had low gaming experience performed better in the condition with avatar feedback than in the condition without avatar feedback. In Experiment 2, we further analyzed the effect of presence of self-avatar visual feedback by looking at the effect of visual immersion in the virtual environment, task difficulty, and individual difference factors such as spatial ability and gaming experience. It was observed that difficult trials were completed significantly faster by subjects in the avatar feedback condition while in the case of the easy trials, there was no significant difference between performance of subjects in the avatar and sphere feedback conditions. No significant interaction was observed between visual feedback condition and either immersiveness or individual difference factors

Multisensory learning in adaptive interactive systems

The main purpose of my work is to investigate multisensory perceptual learning and sensory integration in the design and development of adaptive user interfaces for educational purposes. To this aim, starting from renewed understanding from neuroscience and cognitive science on multisensory perceptual learning and sensory integration, I developed a theoretical computational model for designing multimodal learning technologies that take into account these results. Main theoretical foundations of my research are multisensory perceptual learning theories and the research on sensory processing and integration, embodied cognition theories, computational models of non-verbal and emotion communication in full-body movement, and human-computer interaction models. Finally, a computational model was applied in two case studies, based on two EU ICT-H2020 Projects, "weDRAW" and "TELMI", on which I worked during the PhD

KinFit: A factual aerobic sport game with stimulation support

Overweight and obesity is a situation where a person has stacked too much fat that might affect negatively his/her health. Many people skip doing exercises due to several facts related to the encouragement, health-awareness, and time arrangement. Diverse aerobic video games have been proposed to help users in doing exercises. However, we observe some limitations in existing games. For instance, they don't give correct scores while wearing Arabic traditional suits, they don't consider showing immersive realistic scenes, and they don't stimulate users to do exercises and keeping them encouraged to play more. We propose in this paper an aerobic video game that displays real scenes of aerobic coaches and keeps the user notified about doing exercises. It is a kind of serious games that allows users to learn aerobic movements and practice with aerobic coaches. It contains several exercises in which each can be played on normal screen or in fully immersive virtual reality (VR). While the user is playing, he/she can see the playing score with the estimated amount of burned calories. It stores the time when the user plays to remind him/her about doing exercises again. The profound user studies demonstrated the usability and effectiveness of the proposed game. 2018 Kassel University Press GmbH.The authors would like to acknowledge that devices and equipment were provided by the Visual Computing Research Center, Department of Computer Science and Engineering, at Qatar University. This publication was supported by Qatar University Collaborative High Impact Grant QUHI-CENG-18/19-1. The content of this article and its quality are solely the responsibility of the authors and do not necessarily represent the official views of Qatar University.Scopu