2 research outputs found

    A Formal Approach to Computer Aided 2D Graphical Design for Blind People

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    The growth of computer aided drawing systems for blind people (CADB) has long been recognised and has increased in interest within the assistive technology research area. The representation of pictorial data by blind and visually impaired (BVI) people has recently gathered momentum with research and development; however, a survey of published literature on CADB reveals that only marginal research has been focused on the use of a formal approach for on screen spatial orientation, creation and reuse of graphics artefacts. To realise the full potential of CADB, such systems should possess attributes of usability, spatial navigation and shape creation features without which blind users drawing activities are less likely to be achieved. As a result of this, usable, effective and self-reliant CADB have arisen from new assistive Technology (AT) research. This thesis contributes a novel, abstract, formal approach that facilitates BVI users to navigate on the screen, create computer graphics/diagrams using 2D shapes and user-defined images. Moreover, the research addresses the specific issues involved with user language by formulating specific rules that make BVI user interaction with the drawing effective and easier. The formal approach proposed here is descriptive and it is specified at a level of abstraction above the concrete level of system technologies. The proposed approach is unique in problem modelling and syntheses of an abstract computer-based graphics/drawings using a formal set of user interaction commands. This technology has been applied to enable blind users to independently construct drawings to satisfy their specific needs without recourse to a specific technology and without the intervention of support workers. The specification aims to be the foundation for a system scope, investigation guidelines and user-initiated command-driven interaction. Such an approach will allow system designers and developers to proceed with greater conceptual clarity than it is possible with current technologies that is built on concrete system-driven prototypes. In addition to the scope of the research the proposed model has been verified by various types of blind users who have independently constructed drawings to satisfy their specific needs without the intervention of support workers. The effectiveness and usability of the proposed approach has been compared against conventional non-command driven drawing systems by different types of blind users. The results confirm that the abstract formal approach proposed here using command-driven means in the context of CADB enables greater comprehension by BVI users. The innovation can be used for both educational and training purposes. The research, thereby sustaining the claim that the abstract formal approach taken allows for the greater comprehension of the command-driven means in the context of CADB, and how the specification aid the design of such a system

    Multimodales kollaboratives Zeichensystem für blinde Benutzer

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    Bilder und grafische Darstellungen gehören heutzutage zu den gängigen Kommunikationsmitteln und Möglichkeiten des Informationsaustauschs sowie der Wissensvermittlung. Das bildliche Medium kann allerdings, wenn es rein visuell präsentiert wird, ganze Nutzergruppen ausschließen. Blinde Menschen benötigen beispielsweise Alternativtexte oder taktile Darstellungen, um Zugang zu grafischen Informationen erhalten zu können. Diese müssen jedoch an die speziellen Bedürfnisse von blinden und hochgradig sehbehinderten Menschen angepasst sein. Eine Übertragung von visuellen Grafiken in eine taktile Darstellung erfolgt meist durch sehende Grafikautoren und -autorinnen, die teilweise nur wenig Erfahrung auf dem Gebiet der taktilen Grafiktranskription haben. Die alleinige Anwendung von Kriterienkatalogen und Richtlinien über die Umsetzung guter taktiler Grafiken scheint dabei nicht ausreichend zu sein, um qualitativ hochwertige und gut verständliche grafisch-taktile Materialien bereitzustellen. Die direkte Einbeziehung einer sehbehinderten Person in den Transkriptionsprozess soll diese Problematik angehen, um Verständnis- und Qualitätsproblemen vorzubeugen. Großflächige dynamisch taktile Displays können einen nicht-visuellen Zugang zu Grafiken ermöglichen. Es lassen sich so auch dynamische Veränderungen an Grafiken vermitteln. Im Rahmen der vorliegenden Arbeit wurde ein kollaborativer Zeichenarbeitsplatz für taktile Grafiken entwickelt, welcher es unter Einsatz eines taktilen Flächendisplays und auditiver Ausgaben ermöglicht, eine blinde Person aktiv als Lektorin bzw. Lektor in den Entstehungsprozess einer Grafik einzubinden. Eine durchgeführte Evaluation zeigt, dass insbesondere unerfahrene sehende Personen von den Erfahrungen sehbehinderter Menschen im Umgang mit taktilen Medien profitieren können. Im Gegenzug lassen sich mit dem kollaborativen Arbeitsplatz ebenso unerfahrene sehbehinderte Personen im Umgang mit taktilen Darstellungen schulen. Neben Möglichkeiten zum Betrachten und kollaborativen Bearbeiten werden durch den zugänglichen Zeichenarbeitsplatz auch vier verschiedene Modalitäten zur Erzeugung von Formen angeboten: Formenpaletten als Text-Menüs, Gesteneingaben, Freihandzeichnen mittels drahtlosem Digitalisierungsstift und das kamerabasierte Scannen von Objektkonturen. In einer Evaluation konnte gezeigt werden, dass es mit diesen Methoden auch unerfahrenen blinden Menschen möglich ist, selbständig Zeichnungen in guter Qualität zu erstellen. Dabei präferieren sie jedoch robuste und verlässliche Eingabemethoden, wie Text-Menüs, gegenüber Modalitäten, die ein gewisses Maß an Können und Übung voraussetzen oder einen zusätzlichen technisch aufwendigen Aufbau benötigen.Pictures and graphical data are common communication media for conveying information and know\-ledge. However, these media might exclude large user groups, for instance visually impaired people, if they are offered in visual form only. Textual descriptions as well as tactile graphics may offer access to graphical information but have to be adapted to the special needs of visually impaired and blind readers. The translation from visual into tactile graphics is usually implemented by sighted graphic authors, some of whom have little experience in creating proper tactile graphics. Applying only recommendations and best practices for preparing tactile graphics does not seem sufficient to provide intelligible, high-quality tactile materials. Including a visually impaired person in the process of creating a tactile graphic should prevent such quality and intelligibility issues. Large dynamic tactile displays offer non-visual access to graphics; even dynamic changes can be conveyed. As part of this thesis, a collaborative drawing workstation was developed. This workstation utilizes a tactile display as well as auditory output to actively involve a blind person as a lector in the drawing process. The evaluation demonstrates that inexperienced sighted graphic authors, in particular, can be\-ne\-fit from the knowledge of a blind person who is accustomed to handling tactile media. Furthermore, inexperienced visually impaired people may be trained in reading tactile graphics with the help of the collaborative drawing workstation. In addition to exploring and manipulating existing graphics, the accessible drawing workstation offers four different modalities to create tactile shapes: text-based shape-palette-menus, gestural drawing, freehand drawings using a wireless stylus and scanning object silhouettes by a ToF-camera. The evaluation confirms that even untrained blind users can create drawings in good quality by using the accessible drawing workstation. However, users seem to prefer robust, reliable modalities for drawing, such as text menus, over modalities which require a certain level of skill or additional technical effort
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