Accessibility in video games: a systematic review

Video games are software products with several purposes that are growing in strength and weight in society. However, there is one noticeable problem about them; in most cases, their developers most often do not take into consideration people with disabilities when they are creating video game applications. People with disabilities are thus partially or completely excluded from their use. Prior to any additional work, it is required to have an updated state of the art about this topic. This paper shows the results of a systematic literature review conducted to define the current status of video games accessibility. The type of review is broader than usual, so it is a systematic mapping study (a specific class of systematic review). Besides elaborating the state of the art (qualitative information), we identified and analyzed related works (45 relevant studies) to provide quantitative information of the performed search (including graphs and tables), such as the number of articles found by phases, their sources, their research type, the research questions answered, the kind of disability addressed, and the type and year of publications. None of the studied initiatives can guarantee universally accessible video game applications. Our proposal is to create an integral software engineering methodology that considers accessibility guidelines, techniques, strategies, human factors, etc. in the video game software development process.

[1]  Roel Wieringa,et al.  Requirements engineering paper classification and evaluation criteria: a proposal and a discussion , 2005, Requirements Engineering.

[2]  Klaus Miesenberger,et al.  More Than Just a Game: Accessibility in Computer Games , 2008, USAB.

[3]  Regan L. Mandryk,et al.  Wheelchair-based game design for older adults , 2013, ASSETS.

[4]  Inmaculada Plaza,et al.  Mobile applications in an aging society: Status and trends , 2011, J. Syst. Softw..

[5]  Julie A. Kientz,et al.  An empirical study of issues and barriers to mainstream video game accessibility , 2013, ASSETS.

[6]  Milad Alemzadeh,et al.  Human-Computer Interaction: Overview on State of the Art , 2008 .

[7]  Regan L. Mandryk,et al.  KINECTwheels: wheelchair-accessible motion-based game interaction , 2013, CHI Extended Abstracts.

[8]  Marcelo Garrido,et al.  The Possibilities of Kinect as an Access Device for People with Cerebral Palsy - A Preliminary Study , 2014, ICCHP.

[9]  Kjetil Falkenberg Hansen,et al.  Sound preferences of persons with hearing loss playing an audio-based computer game , 2013, IMMPD '13.

[10]  Thomas Westin,et al.  Game accessibility case study : Terraformers - a real-time 3D graphic game , 2004 .

[11]  Dimitris Grammenos,et al.  Game over: learning by dying , 2008, CHI.

[12]  Kathrin Maria Gerling Motion-based game interaction for older adults , 2014, ASAC.

[13]  Norman H. Villaroman,et al.  Teaching natural user interaction using OpenNI and the Microsoft Kinect sensor , 2011, SIGITE '11.

[14]  Albert A. Rizzo,et al.  Adapting user interfaces for gestural interaction with the flexible action and articulated skeleton toolkit , 2013, Comput. Graph..

[15]  Lee Garber,et al.  Game Accessibility: Enabling Everyone to Play , 2013, Computer.

[16]  Karim Sehaba,et al.  Interactive Educational Games for Autistic Children with Agent-Based System , 2005, ICEC.

[17]  Howell O. Istance,et al.  Accessible gaming for people with physical and cognitive disabilities: a framework for dynamic adaptation , 2013, CHI Extended Abstracts.

[18]  Jennifer G. Sheridan,et al.  Designing sports: a framework for exertion games , 2011, CHI.

[19]  Bei Yuan,et al.  Blind hero: enabling guitar hero for the visually impaired , 2008, Assets '08.

[20]  Werner Kurschl,et al.  Adaptive User Interfaces on Tablets to Support People with Disabilities , 2012, Mensch & Computer Workshopband.

[21]  S. Leatherdale,et al.  Active Video Games and Health Indicators in Children and Youth: A Systematic Review , 2013, PloS one.

[22]  A. Roy,et al.  Enhancing effectiveness of motor rehabilitation using kinect motion sensing technology , 2013, 2013 IEEE Global Humanitarian Technology Conference: South Asia Satellite (GHTC-SAS).

[23]  Tony Morelli,et al.  Real-time sensory substitution to enable players who are blind to play video games using whole body gestures , 2011, Entertain. Comput..

[24]  Sang-won Leigh eyeCan: affordable and versatile gaze interaction , 2013, UIST '13 Adjunct.

[25]  Ioannis Stamelos,et al.  Software engineering research for computer games: A systematic review , 2010, Inf. Softw. Technol..

[26]  Regan L. Mandryk,et al.  Is movement better?: comparing sedentary and motion-based game controls for older adults , 2013, Graphics Interface.

[27]  Mohammed Yeasin,et al.  Accessibility in smartphone applications: what do we learn from reviews? , 2013, ASSETS.

[28]  D. Moher,et al.  Preferred reporting items for systematic reviews and meta-analyses: the PRISMA statement , 2009, BMJ.

[29]  Joy Kim,et al.  TapBeats: accessible and mobile casual gaming , 2011, ASSETS '11.

[30]  Patrick Carrington,et al.  Wearables and chairables: inclusive design of mobile input and output techniques for power wheelchair users , 2014, CHI.

[31]  Regan L. Mandryk,et al.  Full-body motion-based game interaction for older adults , 2012, CHI.

[32]  Tony Morelli,et al.  Vi-bowling: a tactile spatial exergame for individuals with visual impairments , 2010, ASSETS '10.

[33]  Constantine Stephanidis,et al.  Unified Design of Universally Accessible Games , 2007, HCI.

[34]  Evgenia Boutsika,et al.  Kinect in Education: A Proposal for Children with Autism , 2013, DSAI.

[35]  Lee Garber Analytics Goes on Location with New Approaches , 2013, Computer.

[36]  D. Moher,et al.  Preferred reporting items for systematic reviews and meta-analyses: the PRISMA statement. , 2010, International journal of surgery.

[37]  Barbara A. Kitchenham Evidence-Based Software Engineering and Systematic Literature Reviews , 2006, PROFES.

[38]  Bei Yuan,et al.  Game accessibility: a survey , 2011, Universal Access in the Information Society.

[39]  G. Michael Poor,et al.  Thought cubes: exploring the use of an inexpensive brain-computer interface on a mental rotation task , 2011, ASSETS.

[40]  John R. Porter Understanding and addressing real-world accessibility issues in mainstream video games , 2014, ASAC.

[41]  Jon Froehlich,et al.  Surveying the accessibility of touchscreen games for persons with motor impairments: a preliminary analysis , 2013, ASSETS.

[42]  Pearl Brereton,et al.  Performing systematic literature reviews in software engineering , 2006, ICSE.

[43]  L. P. Álvarez Buenas prácticas de accesibilidad en videojuegos , 2012 .

[44]  Pearl Brereton,et al.  Systematic literature reviews in software engineering - A tertiary study , 2010, Inf. Softw. Technol..

[45]  Kristina Höök,et al.  CHI '12 Extended Abstracts on Human Factors in Computing Systems , 2012, CHI 2012.

[46]  Pearl Brereton,et al.  Using mapping studies as the basis for further research - A participant-observer case study , 2011, Inf. Softw. Technol..

[47]  J. Ioannidis,et al.  The PRISMA Statement for Reporting Systematic Reviews and Meta-Analyses of Studies That Evaluate Health Care Interventions: Explanation and Elaboration , 2009, Annals of Internal Medicine [serial online].