5,513 research outputs found

    dWatch: a Personal Wrist Watch for Smart Environments

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    Intelligent environments, such as smart homes or domotic systems, have the potential to support people in many of their ordinary activities, by allowing complex control strategies for managing various capabilities of a house or a building: lights, doors, temperature, power and energy, music, etc. Such environments, typically, provide these control strategies by means of computers, touch screen panels, mobile phones, tablets, or In-House Displays. An unobtrusive and typically wearable device, like a bracelet or a wrist watch, that lets users perform various operations in their homes and to receive notifications from the environment, could strenghten the interaction with such systems, in particular for those people not accustomed to computer systems (e.g., elderly) or in contexts where they are not in front of a screen. Moreover, such wearable devices reduce the technological gap introduced in the environment by home automation systems, thus permitting a higher level of acceptance in the daily activities and improving the interaction between the environment and its inhabitants. In this paper, we introduce the dWatch, an off-the-shelf personal wearable notification and control device, integrated in an intelligent platform for domotic systems, designed to optimize the way people use the environment, and built as a wrist watch so that it is easily accessible, worn by people on a regular basis and unobtrusiv

    Ambient Gestures

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    We present Ambient Gestures, a novel gesture-based system designed to support ubiquitous ‘in the environment’ interactions with everyday computing technology. Hand gestures and audio feedback allow users to control computer applications without reliance on a graphical user interface, and without having to switch from the context of a non-computer task to the context of the computer. The Ambient Gestures system is composed of a vision recognition software application, a set of gestures to be processed by a scripting application and a navigation and selection application that is controlled by the gestures. This system allows us to explore gestures as the primary means of interaction within a multimodal, multimedia environment. In this paper we describe the Ambient Gestures system, define the gestures and the interactions that can be achieved in this environment and present a formative study of the system. We conclude with a discussion of our findings and future applications of Ambient Gestures in ubiquitous computing

    Audio Description of Art : The Role of Mental Imagery and Embodiment

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    How can we make visual art accessible for audiences with visual impairment and blindness? Can audio description help blind and visually impaired (BVI) audiences to understand and experience art? Which ingredients must AD contain to evoke and stimulate the creation of vivid internal mental images? Can AD engage the target audiences and contribute to their aesthetic experience and enjoyment? What other means are there to enhance inclusion and immersion? The paper focuses on how audio description can evoke and stimulate the creation of vivid internal images via verbal descriptions of art and thereby contribute to an embodied aesthetic experience for the BVI audiences. It introduces research on image perception, image description, and mental imagery, relevant for audio description; summarise guidelines and recommendations for audio description of art; and offers authentic examples of AD of art tailored for the target audiences. The paper underlines the importance of reception studies and discusses the issue of inclusion and multi-sensory experiences

    Mid-Air Haptics for Control Interfaces

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    Control interfaces and interactions based on touch-less gesture tracking devices have become a prevalent research topic in both industry and academia. Touch-less devices offer a unique interaction immediateness that makes them ideal for applications where direct contact with a physical controller is not desirable. On the other hand, these controllers inherently lack active or passive haptic feedback to inform users about the results of their interaction. Mid-air haptic interfaces, such as those using focused ultrasound waves, can close the feedback loop and provide new tools for the design of touch-less, un-instrumented control interactions. The goal of this workshop is to bring together the growing mid-air haptic research community to identify and discuss future challenges in control interfaces and their application in AR/VR, automotive, music, robotics and teleoperation

    Evaluation of the Accessibility of Touchscreens for Individuals who are Blind or have Low Vision: Where to go from here

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    Touchscreen devices are well integrated into daily life and can be found in both personal and public spaces, but the inclusion of accessible features and interfaces continues to lag behind technology’s exponential advancement. This thesis aims to explore the experiences of individuals who are blind or have low vision (BLV) while interacting with non-tactile touchscreens, such as smartphones, tablets, smartwatches, coffee machines, smart home devices, kiosks, ATM machines, and more. The goal of this research is to create a set of recommended guidelines that can be used in designing and developing either personal devices or shared public technologies with accessible touchscreens. This study consists of three phases, the first being an exploration of existing research related to accessibility of non-tactile touchscreens, followed by semi-structured interviews of 20 BLV individuals to address accessibility gaps in previous work, and finally a survey in order to get a better understanding of the experiences, thoughts, and barriers for BLV individuals while interacting with touchscreen devices. Some of the common themes found include: loss of independence, lack or uncertainty of accessibility features, and the need and desire for improvements. Common approaches for interaction were: the use of high markings, asking for sighted assistance, and avoiding touchscreen devices. These findings were used to create a set of recommended guidelines which include a universal feature setup, the setup of accessibility settings, universal headphone jack position, tactile feedback, ask for help button, situational lighting, and the consideration of time

    Understanding Visual Arts Experiences of Blind People

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    Visual arts play an important role in cultural life and provide access to social heritage and self-enrichment, but most visual arts are inaccessible to blind people. Researchers have explored different ways to enhance blind people’s access to visual arts (e.g., audio descriptions, tactile graphics). However, how blind people adopt these methods remains unknown. We conducted semi-structured interviews with 15 blind visual arts patrons to understand how they engage with visual artwork and the factors that influence their adoption of visual arts access methods. We further examined interview insights in a follow-up survey (N=220). We present: 1) current practices and challenges of accessing visual artwork in-person and online (e.g., Zoom tour), 2) motivation and cognition of perceiving visual arts (e.g., imagination), and 3) implications for designing visual arts access methods. Overall, our findings provide a roadmap for technology-based support for blind people’s visual arts experiences. Skip Supplemental Material Sectio
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