Accessible haptic user interface design approach for users with visual impairments
Identifieur interne : 000001 ( PascalFrancis/Corpus ); précédent : 000000; suivant : 000002Accessible haptic user interface design approach for users with visual impairments
Auteurs : HYUNG NAM KIM ; Tonya L. Smith-Jackson ; Brian M. KleinerSource :
- Universal access in the information society : (Print) [ 1615-5289 ] ; 2014.
Descripteurs français
- Pascal (Inist)
- Interface utilisateur, Système information, Interface graphique, Analyse image, Signal vidéo, Conception ingénierie, Conception intégrée, Sensibilité tactile, Trouble de la vision, Aveugle, Handicap physique, Assistance utilisateur, Participation communautaire, Matière plastique, Cerveau, Encéphale, Système nerveux central, Plasticité, ..
English descriptors
- KwdEn :
Abstract
With the number of people with visual impairments (e.g., low vision and blind) continuing to increase, vision loss has become one of the most challenging disabilities. Today, haptic technology, using an alternative sense to vision, is deemed an important component for effectively accessing information systems. The most appropriately designed assistive technology is critical for those with visual impairments to adopt assistive technology and to access information, which will facilitate their tasks in personal and professional life. However, most of the existing design approaches are inapplicable and inappropriate to such design contexts as users with visual impairments interacting with non-graphical user interfaces (i.e., haptic technology). To resolve such design challenges, the present study modified a participatory design approach (i.e., PICTIVE, Plastic Interface for Collaborative Technology Initiatives Video Exploration) to be applicable to haptic technologies, by considering the brain plasticity theory. The sense of touch is integrated into the design activity of PICTIVE. Participants with visual impairments were able to effectively engage in designing non-visual interfaces (e.g., haptic interfaces) through non-visual communication methods (e.g., touch modality).
Notice en format standard (ISO 2709)
Pour connaître la documentation sur le format Inist Standard.
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Format Inist (serveur)
NO : | PASCAL 15-0028865 INIST |
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ET : | Accessible haptic user interface design approach for users with visual impairments |
AU : | HYUNG NAM KIM; SMITH-JACKSON (Tonya L.); KLEINER (Brian M.) |
AF : | Department of Pediatrics, Northwestern University Feinberg School of Medicine/Chicago, IL/Etats-Unis (1 aut.); Department of Industrial and Systems Engineering, North Carolina A&T State University/Greensboro, NC/Etats-Unis (2 aut.); The Grado Department of Industrial and Systems Engineering, Virginia Tech/Blacksburg, VA/Etats-Unis (3 aut.) |
DT : | Publication en série; Niveau analytique |
SO : | Universal access in the information society : (Print); ISSN 1615-5289; Allemagne; Da. 2014; Vol. 13; No. 4; Pp. 415-437; Bibl. 77 ref. |
LA : | Anglais |
EA : | With the number of people with visual impairments (e.g., low vision and blind) continuing to increase, vision loss has become one of the most challenging disabilities. Today, haptic technology, using an alternative sense to vision, is deemed an important component for effectively accessing information systems. The most appropriately designed assistive technology is critical for those with visual impairments to adopt assistive technology and to access information, which will facilitate their tasks in personal and professional life. However, most of the existing design approaches are inapplicable and inappropriate to such design contexts as users with visual impairments interacting with non-graphical user interfaces (i.e., haptic technology). To resolve such design challenges, the present study modified a participatory design approach (i.e., PICTIVE, Plastic Interface for Collaborative Technology Initiatives Video Exploration) to be applicable to haptic technologies, by considering the brain plasticity theory. The sense of touch is integrated into the design activity of PICTIVE. Participants with visual impairments were able to effectively engage in designing non-visual interfaces (e.g., haptic interfaces) through non-visual communication methods (e.g., touch modality). |
CC : | 001D02B04; 001D02C03; 002A26E03 |
FD : | Interface utilisateur; Système information; Interface graphique; Analyse image; Signal vidéo; Conception ingénierie; Conception intégrée; Sensibilité tactile; Trouble de la vision; Aveugle; Handicap physique; Assistance utilisateur; Participation communautaire; Matière plastique; Cerveau; Encéphale; Système nerveux central; Plasticité; . |
ED : | User interface; Information system; Graphical interface; Image analysis; Video signal; Engineering design; Integrated design; Tactile sensitivity; Vision disorder; Blind; Physical handicap; User assistance; Community participation; Plastics; Brain; Encephalon; Central nervous system; Plasticity |
SD : | Interfase usuario; Sistema información; Interfaz grafica; Análisis imagen; Señal video; Concepción ingeniería; Concepción integrada; Sensibilidad tactil; Trastorno visión; Ciego; Deficiencia física; Asistencia usuario; Participación comunitaria; Material plástico; Cerebro; Encéfalo; Sistema nervioso central; Plasticidad |
LO : | INIST-28319.354000502686800050 |
ID : | 15-0028865 |
Links to Exploration step
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<AU>HYUNG NAM KIM; SMITH-JACKSON (Tonya L.); KLEINER (Brian M.)</AU>
<AF>Department of Pediatrics, Northwestern University Feinberg School of Medicine/Chicago, IL/Etats-Unis (1 aut.); Department of Industrial and Systems Engineering, North Carolina A&T State University/Greensboro, NC/Etats-Unis (2 aut.); The Grado Department of Industrial and Systems Engineering, Virginia Tech/Blacksburg, VA/Etats-Unis (3 aut.)</AF>
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<EA>With the number of people with visual impairments (e.g., low vision and blind) continuing to increase, vision loss has become one of the most challenging disabilities. Today, haptic technology, using an alternative sense to vision, is deemed an important component for effectively accessing information systems. The most appropriately designed assistive technology is critical for those with visual impairments to adopt assistive technology and to access information, which will facilitate their tasks in personal and professional life. However, most of the existing design approaches are inapplicable and inappropriate to such design contexts as users with visual impairments interacting with non-graphical user interfaces (i.e., haptic technology). To resolve such design challenges, the present study modified a participatory design approach (i.e., PICTIVE, Plastic Interface for Collaborative Technology Initiatives Video Exploration) to be applicable to haptic technologies, by considering the brain plasticity theory. The sense of touch is integrated into the design activity of PICTIVE. Participants with visual impairments were able to effectively engage in designing non-visual interfaces (e.g., haptic interfaces) through non-visual communication methods (e.g., touch modality).</EA>
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<FD>Interface utilisateur; Système information; Interface graphique; Analyse image; Signal vidéo; Conception ingénierie; Conception intégrée; Sensibilité tactile; Trouble de la vision; Aveugle; Handicap physique; Assistance utilisateur; Participation communautaire; Matière plastique; Cerveau; Encéphale; Système nerveux central; Plasticité; .</FD>
<ED>User interface; Information system; Graphical interface; Image analysis; Video signal; Engineering design; Integrated design; Tactile sensitivity; Vision disorder; Blind; Physical handicap; User assistance; Community participation; Plastics; Brain; Encephalon; Central nervous system; Plasticity</ED>
<SD>Interfase usuario; Sistema información; Interfaz grafica; Análisis imagen; Señal video; Concepción ingeniería; Concepción integrada; Sensibilidad tactil; Trastorno visión; Ciego; Deficiencia física; Asistencia usuario; Participación comunitaria; Material plástico; Cerebro; Encéfalo; Sistema nervioso central; Plasticidad</SD>
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