Outline for Module 3: Access Engineering & Telerehabilitation

• Motivation and Aims
• Additional Reading Materials:
  • Draft document on Accessibility for AAMI HE 75 (Human Factors of Medical Devices) standard, as pdf
  • Winters, J.M., Future Possibilities for Interface Technologies that Enhance Universal Access to Health care Devices and Services, Chapter 25 from Medical Instrumentation: Accessibility and Usability Considerations, as pdf
  • Chapters from Emerging and Accessible Telecommunications, Information and Healthcare Technologies (Winters et al, eds.), RESNA Press, 2002 (e.g., Chapter 13 by Tran et al.)

Universal Access

• Terms and Concepts
  • Accessibility, or ability to access
    • Rooted in human rights, often a legal pillar
    • Strategies of direct access and indirect access
  • Usability, or ability to use
    • Rooted in human factors/ergonomics
  • Universal Access
    • The ability of all people to have equal opportunity and access to a service or product from which they can benefit, regardless of their social class, ethnicity, background or physical disabilities.
    • Spans many fields, including education, disability, telecommunications, and healthcare
      • definitions of "universal access" or a "universal service" by US Access Board, Office for Adv. of Telehealth, International Telecommunications Union (ITU), FCC, Rehab
    • Domains include: encounter/interface, cost, distance (tele-)
  • Universal Usability
  • Process of designing interfaces to a service or product so that they are usable by the widest range of people operating in the widest range of situations as is commercially practical.
• Glossary of terms
• Vision of Universal Access
• Technology and changes in societal perspectives on access
• Federal/State laws Mandating Accessibility (web pages from US Access Board)
  • ADA Accessibility Guidelines (mostly for built environment)
  • Section 255 of Telecom Act of 1996 (Telecommunications Technologies
  • Section 508 of Rehab Act of 1973/1998 (Electronic & Information Technologies)
• Barriers of interface, distance and cost
  • Universal Usability plus consideration of the barriers of distance and socioeconomic status?
• Universal Access and Universal Design market potential
  • 15% have functional limitation; aging society; similar prices with front-end design
• "Universal Design" and "Personalized Design" strategies
  • Direct access, indirect access
• Telehealth as a Tool for Improving Universal Access
  • Engineering perspective: maximizing access, with telehealth changing constraints
  • Healthcare systems perspective: maximizing outcomes by adding alternatives to and timely integration within the plan of care
  • So why isn't telerehab flourishing?
• RERCs Involved in Telecom/Information Technology Access
  • RERC on Telerehabilitation (U Pittsburgh)
    • Approaches for remote clinical tele-services
    • Interactive tele-training tools (combining tele- with virtual reality)
  • RERC Telecom Access (UW-Madison, Gaulladet)
    • Legal Definition (Telecom Act of 1996): "the transmission, between or among points specified by the user, of information of the user's choosing, without change in the form or content of the information as sent and received."
    • Primary focus on technologies for persons with hearing deficits
    • Classifications:
      • Tele-conversation
        • near-real-time, time sensitive, minimal delay)
        • two-way language-based conversation ("talking" and "listening")
      • Tele-messaging: back-and-forth message blocks
      • Emergency alerting (urgent notification) and communication (interactive)
  • RERC Information Access (UW-Madison)
    • Primary focus on changes in mainstream products
    • User Interface Socket / Universal Remote Console (UI-Socket/URC) standard
  • RERC Augmentative and Alternative Communication (Duke etc)
    • Innovation in provision of augmentative/alternative communication services, including across distance
  • RERC on Accessible Medical Instrumentation
    • Accessibility and usability evaluation tools
    • Emerging approaches for access (tele-, personalized design via UI-Socket/URC standard)
  • RERC on Wireless (Georgia Tech)
    • Large focus on use of mobile/hand-held devices such as cell phones
    • Also working on UI-Socket/URC standard, with focus on home-based mobile controllers

Overview of AMI Accessibility Chapter for Emerging HE 75 Standard

• Perspective of access barriers, and why conventional usability evaluation is not enough
  • data on disability, aging
• Interface technologies (see also Winters 2006 reading material)
  • Physical layer
    • Interfaces on sensory side ("displays"): display/output technologies
      • Monitor displays: flat panel more common, dropping cost of large displays
      • LCD touch screen/paintable panels (low-cost, flexible, appearing everywhere)
      • Heads-Up/Eyeglass displays (worn by user, projected virtual display)
      • 3-D displays, Virtual Reality technologies
        • immersive worlds and avatars (user can move in virtual world)
        • Virtual altered reality (move in unrealistic environment)
        • Augmented reality (projection mapping to augment information or objects)
      • Kinesthetic feedback devices (force feedback joysticks, mice)
      • Speech output improvements:
        • better quality of synthesized speech, automatic pronunciation, standards
        • low-cost chips (e.g., $10 text-to-speech)
        • incorporation of speech-capable products into standard products
      • Audio displays: added audio cues to info on screens
      • Tactile displays (of lower resolution), olfactory displays
        • dynamic: vibrotactile, electro-tactile stimulation
        • Permanent physical: variable-height pinds, ferro-electric fluids, wax
    • Interfaces on the Motor Side - novel input (and modality translation) technologies
      • Speech recognition, lip reading, gesture recognition
      • Pen-based: handwriting recognition & digital pens/ink
      • Special keyboards (one hand, small keyboards, glove which senses, etc.)
      • Direct brain control (e.g., for simple switches), Biometrics (bio-identification)
    • Extended Physiological Proprioception (EPP) Approaches
  • Conceptual layer (e.g., usability considerations)
• Types of Assistive Technologies
• "Direct access" vs "Indirect access"
• Guidance based on Section 508 (visual, hearing, fine motor, etc)
• Guidance based on Universal Design
• Guidance for physical positioning
• Guidance on use of telecommunication and information technologies with medical device products

Models of Telehealth and Tele-Encounters

• History
  • Telemedicine in the 1960's and 70's
  • Telemedicine in the 1980's
    • Societal technology: POTS phone, broadcast TV, LAN, computer modem
  • Telemedicine/Telehealth and Telerehab in the 1990's
    • Societal technology: Internet, 2G cell phone, wireless, broadband, instant messaging
  • Telehealth and Telerehab in the 2000's
  • Societal technology: now cable modem/DSL, cellphone, VoIP, merging of technologies
  Process Models for Telehealth
  • List of "Tele-..." terms
  • General process models
    • Community telemedicine (teleconsultation), telemonitoring, telehomecare, teletherapy
• Conceptual Framework for Scientific Study of Telerehab
  • Science of optimizing rehabilitative bioprocesses
  • Science of optimizing human-technology interface
  • Science of optimizing behavioral modification

Telecommunications and Teleconferencing Technologies

• Practical Aspects in Designing Telerehab Systems
  • Room-based systems (desktop, group)
    • Key implications and considerations (group vs individual, cameras, mics, lighting, background)
  • Mobile systems (wireless, wearable)
    • Key advantages
    • Key challenges
  Videoconferencing and Multimedia Standards (overview)
  • Terminology
  • H.320 Standard & Technical/User Approaches
  • H.324 Standard & Technical/User Approaches
  • H.323 / SIP Standards & Various IP-Based Technical Approaches
  • Wireless Standards (and Medical Implications)
  • IP Multimedia Sessions and Node Management Approaches
• Glossary of Conferencing Terms

Telerehab Applications

• General Considerations (e.g., telerehab and rehab optimization strategies)
• Areas of Large-Scale Need (and Potential Opportunity)
  • Adult neurorehabilitation from trauma
  • Children with neuromotor Impairment
  • Cardiopulmonary rehabilitation
  • Supportive telehomecare
• Clinical Telerehabilitation Research Involving Rehabilitation Practitioners
  • Telemedicine: Rehab Teleconsults (examples from physiatrist, PT, OT, SLP)
• Telehomecare/telemonitoring (e.g., cardiopulmonary rehab)
• Telehomecare/telemonitoring (e.g., wound care (pressure ulcer) management)
• Telemonitoring/teletherapy (e.g., stroke)
• Insights from review of research presented at Telerehab State of the Science conference
New Paradigms for Clinical Telerehab Research?