Impact of auditory distractions on haptic messages presented under the foot

When compared to vision and audition, communication capabilities of the haptic channel remain underexploited. In this paper, we investigate the impact of auditory distractions on the learning of haptic messages presented under the foot plantar. From a set of six haptic messages that have been designed in order to be easily differentiable one from another, participants have to select four. With and without the presence of auditory distractions, we evaluate the completion time and the number of iteration required to reach an identification rate greater than 95%. For both measures, we observed that having auditory distractions was detrimental to the performances of users

Exploitation of haptic renderings to communicate risk levels of falling

Falls represent a major cause of injury that could lead to death. This observation is even more accentuated in the elderly. Indeed, with aging comes some deterioration (gait disturbances, balance disorders, and sensory motor impairments) that may lead to falls. The research project presented in this thesis is focused on the problem of reducing the risk level of falling. This study proposes a solution for the communication of haptic information to reduce the risk of falling. This solution is part of the design of a haptic communication system in a controlled environment. This new system introduces the notion of haptic perception through the communication of information by touch using the foot, which the literature does not generally mention. For the design of this system, we first studied the use of tactile stimuli to evaluate the possibility of communicating a risk level through a haptic modality. Then, having hypothesized that some factors could influence the communication of stimuli representing the risk levels of falling, we conducted a second study to evaluate the effect of auditory disturbances during the communication of these stimuli. Third, to determine whether the user had the necessary time to act after the perception of the risk level, we analyzed a variation of the simple reaction time when walking on different types of soil. These results encouraged us to do a fourth assessment of reaction time using a new device coupled with a smartphone that can be positioned at different locations on the body. Several experiments have been done to validate each of the steps. With this, we can now communicate a risk level of falling to users through the haptic channel using an active device and easily differentiable stimuli. In addition, we can evaluate auditory factors during such a haptic perception. Finally, we can evaluate the physiological characteristics of the users (response time) while seated and while walking on different types of soil. Les chutes représentent une cause majeure de blessures pouvant entraîner la mort. Cette observation est encore plus accentuée chez les personnes âgées. En effet, avec le vieillissement, certaines détériorations (troubles de la démarche, troubles de l’équilibre, troubles sensorimoteurs) peuvent entraîner des chutes. Le projet de recherche présenté dans cette thèse fait partie du problème de la réduction du risque de chute. En particulier, cette étude propose une solution au problème de la réduction du risque de chute par la perception haptiques. Cette solution intègre la conception d’un système de communication haptique dans un environnement contrôlé. Ce nouveau système introduit la notion de perception haptique à travers la communication de l’information par le toucher avec le pied, que la littérature ne mentionne généralement pas. Pour cela nous avons d’abord étudié l’utilisation de stimuli tactiles pour évaluer la possibilité de communiquer un niveau de risque par la modalité haptique. Puis, ayant émis l’hypothèse que certains facteurs pourraient influencer la communication de ces stimuli, nous avons mené une deuxième étude pour évaluer l’impact des perturbations auditives lors de la perception haptique du niveau de risque. Troisièmement, afin de savoir si l’utilisateur avait le temps nécessaire pour agir après la perception du niveau de risque, nous avons analysé la variation du temps de réaction simple en marchant sur différents types de sols. Les résultats obtenus dans cette dernière étude nous ont motivé à faire une quatrième évaluation du temps de réaction mais en utilisant un nouveau dispositif couplé à un smartphone qui peut être positionné à différents endroits du corps. Plusieurs expériences ont été réalisées pour valider chacune des étapes. Avec toutes ces études, nous pouvons maintenant communiquer aux utilisateurs un niveau de risque à travers le canal haptique en utilisant un dispositif actif et des stimuli facilement différentiables. En outre, nous pouvons évaluer les facteurs externes (auditifs) au cours d’une telle perception haptique. Enfin, nous pouvons évaluer les caractéristiques physiologiques des utilisateurs (temps de réponse) en position assise et en marchant sur différents types de sols

Exploring the Use of Wearables to develop Assistive Technology for Visually Impaired People

This thesis explores the usage of two prominent wearable devices to develop assistive technology for users who are visually impaired. Specifically, the work in this thesis aims at improving the quality of life of users who are visually impaired by improving their mobility and ability to socially interact with others. We explore the use of a smart watch for creating low-cost spatial haptic applications. This app explores the use of haptic feedback provided using a smartwatch and smartphone to provide navigation instructions that let visually impaired people safely traverse a large open space. This spatial feedback guides them to walk on a straight path from source to destination by avoiding veering. Exploring the paired interaction between a Smartphone and a Smartwatch, helped to overcome the limitation that smart devices have only single haptic actuator.We explore the use of a head-mounted display to enhance social interaction by helping people with visual impairments align their head towards a conversation partner as well as maintain personal space during a conversation. Audio feedback is provided to the users guiding them to achieve effective face-to-face communication. A qualitative study of this method shows the effectiveness of the application and explains how it helps visually impaired people to perceive non-verbal cues and feel more engaged and assertive in social interactions

INTERACTION BETWEEN SIGNAL COMPLEXITY AND PHYSICAL ACTIVITY IN VIBRO-TACTILE COMMUNICATION

Master'sMASTER OF ART

Haptics: Science, Technology, Applications

This open access book constitutes the proceedings of the 13th International Conference on Human Haptic Sensing and Touch Enabled Computer Applications, EuroHaptics 2022, held in Hamburg, Germany, in May 2022. The 36 regular papers included in this book were carefully reviewed and selected from 129 submissions. They were organized in topical sections as follows: haptic science; haptic technology; and haptic applications