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Design of a vibro-tactile warning system in an automobile applicationWennerholm, Karl, Rosengren, Peter January 2008 (has links)
In-vehicle warning systems are today mainly using the visual and auditory channels for presentation. As cars get more and more sophisticated the demand on new ways of presenting information increases. This report investigates if the sense of touch, in form of a vibro-tactile seat is a prospective channel for warning information. To achieve the objectives the tactile seat was developed, implemented and tested in a simulator environment. The final result is a complete tactile seat with a set of warnings which correspond with different critical situations. The tactile seat made it possible to conduct a simulator-based experiment including comparison with a visual head-up warning presentation. The experiment proved significant difference in discovery distance in the comparison between the no system and the tactile warning system. The overall conclusion is that a vibro-tactile warning display in the driver’s seat is an excellent way of presenting certain warning information. The tactile channel is especially favorable when fast reaction time is essential. Further work could include designing and testing a combined tactile and visual system.
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Design of a vibro-tactile warning system in an automobile applicationWennerholm, Karl, Rosengren, Peter January 2008 (has links)
<p>In-vehicle warning systems are today mainly using the visual and auditory channels for presentation. As cars get more and more sophisticated the demand on new ways of presenting information increases. This report investigates if the sense of touch, in form of a vibro-tactile seat is a prospective channel for warning information. To achieve the objectives the tactile seat was developed, implemented and tested in a simulator environment. The final result is a complete tactile seat with a set of warnings which correspond with different critical situations.</p><p>The tactile seat made it possible to conduct a simulator-based experiment including comparison with a visual head-up warning presentation. The experiment proved significant difference in discovery distance in the comparison between the no system and the tactile warning system.</p><p>The overall conclusion is that a vibro-tactile warning display in the driver’s seat is an excellent way of presenting certain warning information. The tactile channel is especially favorable when fast reaction time is essential. Further work could include designing and testing a combined tactile and visual system.</p>
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Control for Resonant Microbeam Vibrotactile Haptic DisplaysJanuary 2018 (has links)
abstract: The world’s population is currently 9% visually impaired. Medical sciences do not have a biological fix that can cure this visual impairment. Visually impaired people are currently being assisted with biological fixes or assistive devices. The current assistive devices are limited in size as well as resolution. This thesis presents the development and experimental validation of a control system for a new vibrotactile haptic display that is currently in development. In order to allow the vibrotactile haptic display to be used to represent motion, the control system must be able to change the image displayed at a rate of at least 30 frames/second. In order to achieve this, this thesis introduces and investigates the use of three improvements: threading, change filtering, and wave libraries. Through these methods, it is determined that an average of 40 frames/second can be achieved. / Dissertation/Thesis / Masters Thesis Engineering 2018
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Evaluation of Multi-sensory Feedback in Virtual and Real Remote Environments in a USAR Robot Teleoperation Scenariode Barros, Paulo 26 April 2014 (has links)
The area of Human-Robot Interaction deals with problems not only related to robots interacting with humans, but also with problems related to humans interacting and controlling robots. This dissertation focuses on the latter and evaluates multi-sensory (vision, hearing, touch, smell) feedback interfaces as a means to improve robot-operator cognition and performance. A set of four empirical studies using both simulated and real robotic systems evaluated a set of multi-sensory feedback interfaces with various levels of complexity. The task scenario for the robot in these studies involved the search for victims in a debris-filled environment after a fictitious catastrophic event (e.g., earthquake) took place. The results show that, if well-designed, multi-sensory feedback interfaces can indeed improve the robot operator data perception and performance. Improvements in operator performance were detected for navigation and search tasks despite minor increases in workload. In fact, some of the multi-sensory interfaces evaluated even led to a reduction in workload. The results also point out that redundant feedback is not always beneficial to the operator. While introducing the concept of operator omni-directional perception, that is, the operator’s capability of perceiving data or events coming from all senses and in all directions, this work explains that feedback redundancy is only beneficial when it enhances the operator omni-directional perception of data relevant to the task at hand. Last, the comprehensive methodology employed and refined over the course of the four studies is suggested as a starting point for the design of future HRI user studies. In summary, this work sheds some light on the benefits and challenges multi-sensory feedback interfaces bring, specifically on teleoperated robotics. It adds to our current understanding of these kinds of interfaces and provides a few insights to assist the continuation of research in the area.
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Navigating through haptics and sound: Exploring non-visual navigation for urban cyclists to enhance the cycling experienceGiesa, Anette Isabella January 2019 (has links)
Bicyclist are increasingly shaping the picture of urban traffic. With regard to guided navigation through urban areas, navigation systems that are designed for this type of traffic participants do not offer a satisfying solution. Voice instructions are often perceived as annoying and far too detailed. In addition, the usage of headphones to hear these instructions reduces the hearing and localization of environmental sounds significantly. Visual information on the other hand, draws the attention too much away from the main traffic situation. This effects the ability to react to and interact with other traffic participants and the surrounding and results in a feeling of insecurity.This thesis investigates how acoustic and vibro-tactile signals can be used to provide cyclists with necessary navigation instructions while maintaining the ability to perceive ambient sounds and keep attention to the environment. In addition, the focus is placed on the experience of guided navigation with a non-visual, multi-sensory system.
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