Assisting Students with Intellectual and Developmental Disabilities in Inclusive Education with Smartwatches

Smartwatches have a large potential to support everyday activities. However, their potential as assistive technologies in inclusive academic environments is unclear. To investigate how smartwatches can support students with intellectual and developmental disabilities (IDDs) to perform activities that require emotional and behavioral skills and involve communication, collaboration and planning, we implemented WELI. WELI (Wearable Life) is a wearable application designed to assist young adults with IDDs attending a postsecondary education program. This paper reports on the user-centric design process adopted in the development of WELI, and describes how smartwatches can assist students with IDDs in special education. The results reported are drawn from 8 user studies with 58 participants in total. WELI features include behavioral intervention, mood regulation, reminders, checklists, surveys and rewards. Results indicate that several considerations must be taken into account when designing for students with IDD, and that overall the students are enthusiastic about adopting an innovative smartwatch application in class, as they reacted positively about the technology and features provided.

[1]  Markku Turunen,et al.  Gesture-based Interaction for Individuals with Developmental Disabilities in India , 2016, ASSETS.

[2]  Jörg Müller,et al.  Changing Family Practices with Assistive Technology: MOBERO Improves Morning and Bedtime Routines for Children with ADHD , 2016, CHI.

[3]  Thomas Erickson,et al.  Exploring the Potential of Wearables to Support Employment for People with Mild Cognitive Impairment , 2015, ASSETS.

[4]  C. Moffatt,et al.  Cutting-Edge , 2011 .

[5]  Markus Funk,et al.  Comparing Tactile, Auditory, and Visual Assembly Error-Feedback for Workers with Cognitive Impairments , 2016, ASSETS.

[6]  K A Arndt,et al.  Cutting edge , 2012, Archives of dermatology.

[7]  Markus Funk,et al.  Using In-Situ Projection to Support Cognitively Impaired Workers at the Workplace , 2015, ASSETS.

[8]  Xinlong Jiang,et al.  ProCom: Designing and Evaluating a Mobile and Wearable System to Support Proximity Awareness for People with Autism , 2017, CHI.

[9]  Eelke Folmer,et al.  Headlock: a wearable navigation aid that helps blind cane users traverse large open spaces , 2014, ASSETS.

[10]  A. Mack,et al.  Trends in the Prevalence of Developmental Disabilities in US Children, 1997–2008 , 2012 .

[11]  Vivian Genaro Motti,et al.  WeLi: A Smartwatch Application to Assist Students with Intellectual and Developmental Disabilities , 2017, ASSETS.

[12]  Hung-Huan Liu,et al.  Designing Kinect2Scratch Games to Help Therapists Train Young Adults with Cerebral Palsy in Special Education School Settings , 2015, ASSETS.

[13]  Meredith Ringel Morris,et al.  Smartphone-Based Gaze Gesture Communication for People with Motor Disabilities , 2017, CHI.

[14]  Stephen J. Blumberg,et al.  Trends in the Prevalence of Developmental Disabilities in US Children, 1997–2008 , 2011, Pediatrics.

[15]  Karina Caro,et al.  Designing exergames combining the use of fine and gross motor exercises to support self-care activities , 2014, ASSETS.

[16]  Gillian R. Hayes,et al.  Would You Be Mine: Appropriating Minecraft as an Assistive Technology for Youth with Autism , 2016, ASSETS.

[17]  Richard T. Boon,et al.  Review of Research-Based Interventions for Students with Autism Spectrum Disorders in Content Area Instruction: Implications and Considerations for Classroom Practice. , 2014 .

[18]  John Burghardt,et al.  Preparing for Life after High School: The Characteristics and Experiences of Youth in Special Education. Findings from the National Longitudinal Transition Study 2012. Volume 1: Comparisons with Other Youth. Executive Summary. NCEE 2017-4017. , 2017 .

[19]  Camellia Zakaria,et al.  Demo: Wearable Application to Manage Problem Behavior in Children with Neurodevelopmental Disorders , 2016, MobiSys '16 Companion.

[20]  P. Tracey,et al.  Intellectual disability. , 2017, JEMS : a journal of emergency medical services.

[21]  Vivian Genaro Motti,et al.  Wearable Life: A Wrist-Worn Application to Assist Students in Special Education , 2017, HCI.

[22]  Karina Caro,et al.  Online Learning System to Help People with Developmental Disabilities Reinforce Basic Skills , 2016, ASSETS.

[23]  Mary Wagner,et al.  Comparisons across Time of the Outcomes of Youth with Disabilities up to 4 Years after High School. A Report of Findings from the National Longitudinal Transition Study (NLTS) and the National Longitudinal Transition Study-2 (NLTS2). NCSER 2010-3008. , 2010 .

[24]  Ann Lantz,et al.  User Participation When Users have Mental and Cognitive Disabilities , 2015, ASSETS.

[25]  Charlotte Magnusson,et al.  Audible Beacons and Wearables in Schools: Helping Young Visually Impaired Children Play and Move Independently , 2017, CHI.

[26]  Sinziana Mazilu,et al.  GaitAssist: a daily-life support and training system for parkinson's disease patients with freezing of gait , 2014, CHI.

[27]  Victor Dibia,et al.  FOQUS: A Smartwatch Application for Individuals with ADHD and Mental Health Challenges , 2016, ASSETS.

[28]  Susan Evans,et al.  Incloodle: Evaluating an Interactive Application for Young Children with Mixed Abilities , 2016, CHI.

[29]  Dorothy F. Garrison-Wade Listening to Their Voices: Factors that Inhibit or Enhance Postsecondary Outcomes for Students' with Disabilities. , 2012 .

[30]  Kenji Suzuki,et al.  EnhancedTouch: A Smart Bracelet for Enhancing Human-Human Physical Touch , 2016, CHI.

[31]  Sri Hastuti Kurniawan,et al.  Online learning system for teaching basic skills to people with developmental disabilities , 2014, ASSETS.

[32]  Developmental Disabilities,et al.  Intellectual disability : definition, classification, and systems of supports , 2010 .

[33]  N. Nader-Grosbois Self-perception, self-regulation and metacognition in adolescents with intellectual disability. , 2014, Research in developmental disabilities.

[34]  Jon Whittle,et al.  Anxiety and Autism: Towards Personalized Digital Health , 2016, CHI.