Matching Items (2)
Filtering by
- All Subjects: Blind
- All Subjects: Human Computer Interaction
- Creators: Duarte, Bryan
Description
Although many data visualization diagrams can be made accessible for individuals who are blind or visually impaired, they often do not present the information in a way that intuitively allows readers to easily discern patterns in the data. In particular, accessible node graphs tend to use speech to describe the transitions between nodes. While the speech is easy to understand, readers can be overwhelmed by too much speech and may not be able to discern any structural patterns which occur in the graphs. Considering these limitations, this research seeks to find ways to better present transitions in node graphs.
This study aims to gain knowledge on how sequence patterns in node graphs can be perceived through speech and nonspeech audio. Users listened to short audio clips describing a sequence of transitions occurring in a node graph. User study results were evaluated based on accuracy and user feedback. Five common techniques were identified through the study, and the results will be used to help design a node graph tool to improve accessibility of node graph creation and exploration for individuals that are blind or visually impaired.
This study aims to gain knowledge on how sequence patterns in node graphs can be perceived through speech and nonspeech audio. Users listened to short audio clips describing a sequence of transitions occurring in a node graph. User study results were evaluated based on accuracy and user feedback. Five common techniques were identified through the study, and the results will be used to help design a node graph tool to improve accessibility of node graph creation and exploration for individuals that are blind or visually impaired.
ContributorsDarmawaskita, Nicole (Author) / McDaniel, Troy (Thesis director) / Duarte, Bryan (Committee member) / Computer Science and Engineering Program (Contributor, Contributor) / Barrett, The Honors College (Contributor)
Created2019-12
Description
This paper presents a study done to gain knowledge on the communication of an object’s relative 3-dimensional position in relation to individuals who are visually impaired and blind. The HapBack, a continuation of the HaptWrap V1.0 (Duarte et al., 2018), focused on the perception of objects and their distances in 3-dimensional space using haptic communication. The HapBack is a device that consists of two elastic bands wrapped horizontally secured around the user’s torso and two backpack straps secured along the user’s back. The backpack straps are embedded with 10 vibrotactile motors evenly positioned along the spine. This device is designed to provide a wearable interface for blind and visually impaired individuals in order to understand how the position of objects in 3-dimensional space are perceived through haptic communication. We were able to analyze the accuracy of the HapBack device through three vectors (1) Two different modes of vibration – absolute and relative (2) the location of the vibrotactile motors when in absolute mode (3) and the location of the vibrotactile motors when in relative mode. The results provided support that the HapBack provided vibrotactile patterns that were intuitively mapped to distances represented in the study. We were able to gain a better understanding on how distance can be perceived through haptic communication in individuals who are blind through analyzing the intuitiveness of the vibro-tactile patterns and the accuracy of the user’s responses.
ContributorsLow, Allison Xin Ming (Author) / McDaniel, Troy (Thesis director) / Duarte, Bryan (Committee member) / School of Mathematical and Statistical Sciences (Contributor) / Computer Science and Engineering Program (Contributor, Contributor) / Barrett, The Honors College (Contributor)
Created2019-12