INNOVATING CONTROL AND EMOTIONAL EXPRESSIVE MODALITIES OF USER INTERFACES FOR PEOPLE WITH LOCKED-IN SYNDROME

Patients with Lock-In-Syndrome (LIS) lost their ability to control any body part beside their eyes. Current solutions mainly use eye-tracking cameras to track patients' gaze as system input. However, despite the fact that interface design greatly impacts user experience, only a few guidelines have been were proposed so far to insure an easy, quick, fluid and non-tiresome computer system for these patients. On the other hand, the emergence of dedicated computer software has been greatly increasing the patients' capabilities, but there is still a great need for improvements as existing systems still present low usability and limited capabilities. Most interfaces designed for LIS patients aim at providing internet browsing or communication abilities. State of the art augmentative and alternative communication systems mainly focus on sentences communication without considering the need for emotional expression inextricable from human communication. This thesis aims at exploring new system control and expressive modalities for people with LIS. Firstly, existing gaze-based web-browsing interfaces were investigated. Page analysis and high mental workload appeared as recurring issues with common systems. To address this issue, a novel user interface was designed and evaluated against a commercial system. The results suggested that it is easier to learn and to use, quicker, more satisfying, less frustrating, less tiring and less prone to error. Mental workload was greatly diminished with this system. Other types of system control for LIS patients were then investigated. It was found that galvanic skin response may be used as system input and that stress related bio-feedback helped lowering mental workload during stressful tasks. Improving communication was one of the main goal of this research and in particular emotional communication. A system including a gaze-controlled emotional voice synthesis and a personal emotional avatar was developed with this purpose. Assessment of the proposed system highlighted the enhanced capability to have dialogs more similar to normal ones, to express and to identify emotions. Enabling emotion communication in parallel to sentences was found to help with the conversation. Automatic emotion detection seemed to be the next step toward improving emotional communication. Several studies established that physiological signals relate to emotions. The ability to use physiological signals sensors with LIS patients and their non-invasiveness made them an ideal candidate for this study. One of the main difficulties of emotion detection is the collection of high intensity affect-related data. Studies in this field are currently mostly limited to laboratory investigations, using laboratory-induced emotions, and are rarely adapted for real-life applications. A virtual reality emotion elicitation technique based on appraisal theories was proposed here in order to study physiological signals of high intensity emotions in a real-life-like environment. While this solution successfully elicited positive and negative emotions, it did not elicit the desired emotions for all subject and was therefore, not appropriate for the goals of this research. Collecting emotions in the wild appeared as the best methodology toward emotion detection for real-life applications. The state of the art in the field was therefore reviewed and assessed using a specifically designed method for evaluating datasets collected for emotion recognition in real-life applications. The proposed evaluation method provides guidelines for future researcher in the field. Based on the research findings, a mobile application was developed for physiological and emotional data collection in the wild. Based on appraisal theory, this application provides guidance to users to provide valuable emotion labelling and help them differentiate moods from emotions. A sample dataset collected using this application was compared to one collected using a paper-based preliminary study. The dataset collected using the mobile application was found to provide a more valuable dataset with data consistent with literature. This mobile application was used to create an open-source affect-related physiological signals database. While the path toward emotion detection usable in real-life application is still long, we hope that the tools provided to the research community will represent a step toward achieving this goal in the future. Automatically detecting emotion could not only be used for LIS patients to communicate but also for total-LIS patients who have lost their ability to move their eyes. Indeed, giving the ability to family and caregiver to visualize and therefore understand the patients' emotional state could greatly improve their quality of life. This research provided tools to LIS patients and the scientific community to improve augmentative and alternative communication, technologies with better interfaces, emotion expression capabilities and real-life emotion detection. Emotion recognition methods for real-life applications could not only enhance health care but also robotics, domotics and many other fields of study. A complete system fully gaze-controlled was made available open-source with all the developed solutions for LIS patients. This is expected to enhance their daily lives by improving their communication and by facilitating the development of novel assistive systems capabilities

Factors of Emotion and Affect in Designing Interactive Virtual Characters

The Arts: 1st Place (The Ohio State University Edward F. Hayes Graduate Research Forum)This paper represents a review of literature concerning factors of affective interactive virtual character design. Affect and it's related concepts are defined followed by a detail of work being conducted in relevant areas such as design, animation, robotics. The intent of this review as to inform the author on overlapping concepts in fields related to affective design in order to apply these concepts interactive character development.A three-year embargo was granted for this item

Affective Computing

This book provides an overview of state of the art research in Affective Computing. It presents new ideas, original results and practical experiences in this increasingly important research field. The book consists of 23 chapters categorized into four sections. Since one of the most important means of human communication is facial expression, the first section of this book (Chapters 1 to 7) presents a research on synthesis and recognition of facial expressions. Given that we not only use the face but also body movements to express ourselves, in the second section (Chapters 8 to 11) we present a research on perception and generation of emotional expressions by using full-body motions. The third section of the book (Chapters 12 to 16) presents computational models on emotion, as well as findings from neuroscience research. In the last section of the book (Chapters 17 to 22) we present applications related to affective computing

Advances in Human-Robot Interaction

Rapid advances in the field of robotics have made it possible to use robots not just in industrial automation but also in entertainment, rehabilitation, and home service. Since robots will likely affect many aspects of human existence, fundamental questions of human-robot interaction must be formulated and, if at all possible, resolved. Some of these questions are addressed in this collection of papers by leading HRI researchers

Look me in the eyes: A survey of eye and gaze animation for virtual agents and artificial systems

International audienceA person's emotions and state of mind are apparent in their face and eyes. As a Latin proverb states: "The face is the portrait of the mind; the eyes, its informers.". This presents a huge challenge for computer graphics researchers in the generation of artificial entities that aim to replicate the movement and appearance of the human eye, which is so important in human-human interactions. This State of the Art Report provides an overview of the efforts made on tackling this challenging task. As with many topics in Computer Graphics, a cross-disciplinary approach is required to fully understand the workings of the eye in the transmission of information to the user. We discuss the movement of the eyeballs, eyelids, and the head from a physiological perspective and how these movements can be modelled, rendered and animated in computer graphics applications. Further, we present recent research from psychology and sociology that seeks to understand higher level behaviours, such as attention and eye-gaze, during the expression of emotion or during conversation, and how they are synthesised in Computer Graphics and Robotics