A Thermoelectric Display for Assessment of Touch Sensory Deficits

This thesis employed systems modeling and engineering design methods in order to study the `thermal grill illusion' (TGI), a perceptual illusion in which a spatial configuration of warm and cool elements produce a paradoxical pseudo-burning sensation. The motivation for this study was derived from the possibility to develop new methods for assessing peripheral sensory deficits affecting the sense of touch, associated with peripheral neuropathy. Thermal grill stimuli, consisting of spatial configurations of alternating warm and cool elements, are non-injurious and can elicit rapid and unambiguous perceptual responses, whose absence might provide a reliable indicator of sensory loss, although this has not been previously investigated, and is only indirectly addressed in this thesis. An integrated custom electrothermal display was optimized for delivering thermal grill stimuli to the body. In order to validate the display technique, a thermodynamic model accounting for heat exchange (diffusion) through the skin was developed and the model predictions were compared with thermal perception. I calibrated and assessed the approach in perceptual experiments with healthy human subjects

Augmenting communication technologies with non-primary sensory modalities

Humans combine their senses to enhance the world around them. While computers have evolved to reflect these sensory demands, only the primary senses of vision and audition (and to an extent, touch) are used in modern communication. This thesis investigated how additional information, such as emotion and navigational assistance, might be communicated using technology-based implementations of sensory displays that output the non-primary modalities of smell, vibrotactile touch, and thermo-touch. This thesis explored using a portable atomiser sprayer to deliver emotional information via smell to mobile phone users, a ring-shaped device worn on the finger to display emotional information using vibration and colours, and an array of thermoelectric coolers worn on the arm to create temperature sensations. Additionally, this thesis explored two methods of signalling temperature using the thermal implementation, and finally, used it in a controlled study to augment the perceived emotion of text messages using temperature. There were challenges with using some of these implementations to display information. Smells produced with the scent technology were ambiguous and highly cognitive, and poor delivery to the user produced undesirable cross-adaption effects when smells lingered and mixed in the environment. The device used to communicate vibrotactile and colour lighting cues neutralized emotions in text messages. Furthermore, temperature pattern discrimination using the thermal implementation was difficult due to non-linear interaction effects that occurred on the skin’s surface, as well as latency resulting from the thermal neurological pathway and the technology used to heat and cool the skin. However, the thermal implementation enabled more accurate user discrimination between thermal signals than what a single stimulator design provided. Furthermore, the utility of continuous thermal feedback, in the context of spatial navigation, was demonstrated, which improved user performance compared to when the user was not presented with any thermal information. Finally, temperature was demonstrated to elicit arousal reactions across subjects using the thermal implementation, and could augment the arousal of text messages, especially when the content of the message was strongly neutral. However, no similar statistical significance was observed with valence, demonstrating the complex implications of using thermal cues to convey emotional information

Haptics: Science, Technology, Applications

This open access book constitutes the proceedings of the 12th International Conference on Human Haptic Sensing and Touch Enabled Computer Applications, EuroHaptics 2020, held in Leiden, The Netherlands, in September 2020. The 60 papers presented in this volume were carefully reviewed and selected from 111 submissions. The were organized in topical sections on haptic science, haptic technology, and haptic applications. This year's focus is on accessibility

Haptics: Science, Technology, Applications

This open access book constitutes the proceedings of the 12th International Conference on Human Haptic Sensing and Touch Enabled Computer Applications, EuroHaptics 2020, held in Leiden, The Netherlands, in September 2020. The 60 papers presented in this volume were carefully reviewed and selected from 111 submissions. The were organized in topical sections on haptic science, haptic technology, and haptic applications. This year's focus is on accessibility

Using pressure input and thermal feedback to broaden haptic interaction with mobile devices

Pressure input and thermal feedback are two under-researched aspects of touch in mobile human-computer interfaces. Pressure input could provide a wide, expressive range of continuous input for mobile devices. Thermal stimulation could provide an alternative means of conveying information non-visually. This thesis research investigated 1) how accurate pressure-based input on mobile devices could be when the user was walking and provided with only audio feedback and 2) what forms of thermal stimulation are both salient and comfortable and so could be used to design structured thermal feedback for conveying multi-dimensional information. The first experiment tested control of pressure on a mobile device when sitting and using audio feedback. Targeting accuracy was >= 85% when maintaining 4-6 levels of pressure across 3.5 Newtons, using only audio feedback and a Dwell selection technique. Two further experiments tested control of pressure-based input when walking and found accuracy was very high (>= 97%) even when walking and using only audio feedback, when using a rate-based input method. A fourth experiment tested how well each digit of one hand could apply pressure to a mobile phone individually and in combination with others. Each digit could apply pressure highly accurately, but not equally so, while some performed better in combination than alone. 2- or 3-digit combinations were more precise than 4- or 5-digit combinations. Experiment 5 compared one-handed, multi-digit pressure input using all 5 digits to traditional two-handed multitouch gestures for a combined zooming and rotating map task. Results showed comparable performance, with multitouch being ~1% more accurate but pressure input being ~0.5sec faster, overall. Two experiments, one when sitting indoors and one when walking indoors tested how salient and subjectively comfortable/intense various forms of thermal stimulation were. Faster or larger changes were more salient, faster to detect and less comfortable and cold changes were more salient and faster to detect than warm changes. The two final studies designed two-dimensional structured ‘thermal icons’ that could convey two pieces of information. When indoors, icons were correctly identified with 83% accuracy. When outdoors, accuracy dropped to 69% when sitting and 61% when walking. This thesis provides the first detailed study of how precisely pressure can be applied to mobile devices when walking and provided with audio feedback and the first systematic study of how to design thermal feedback for interaction with mobile devices in mobile environments

Aerospace medicine and biology: A cumulative index to the continuing bibliography of the 1973 issues

A cumulative index to the abstracts contained in Supplements 112 through 123 of Aerospace Medicine and Biology A Continuing Bibliography is presented. It includes three indexes: subject, personal author, and corporate source

Investigation into the control of an upper-limb myoelectric prosthesis

SIGLEAvailable from British Library Document Supply Centre- DSC:DXN053608 / BLDSC - British Library Document Supply CentreGBUnited Kingdo

Aerospace Medicine and Biology: A continuing bibliography with indexes, supplement 267, January 1985

This publication is a cumulative index to the abstracts contained in the Supplements 255 through 266 of Aerospace Medicine and Biology: A Continuing Bibliography. It includes seven indexes--subject, personal author, corporate source, foreign technology, contract number, report number, and accession number