Ubiquitous Technologies for Emotion Recognition

Emotions play a very important role in how we think and behave. As such, the emotions we feel every day can compel us to act and influence the decisions and plans we make about our lives. Being able to measure, analyze, and better comprehend how or why our emotions may change is thus of much relevance to understand human behavior and its consequences. Despite the great efforts made in the past in the study of human emotions, it is only now, with the advent of wearable, mobile, and ubiquitous technologies, that we can aim to sense and recognize emotions, continuously and in real time. This book brings together the latest experiences, findings, and developments regarding ubiquitous sensing, modeling, and the recognition of human emotions

Vocal emotions on the brain: the role of acoustic parameters and musicality

The human voice is a powerful transmitter of emotions. This dissertation addresses three main gaps in the field of vocal emotion perception. The first is the quantification of the relative contribution of fundamental frequency (F0) and timbre cues to the perception of different emotions and their associated electrophysiological correlates. Using parameter-specific voice morphing, the results show that both F0 and timbre carry unique information that allow emotional inferences, although F0 seems to be relatively more important overall. The electrophysiological data revealed F0- and timbre-specific modulations in several ERP components, such as the P200 and the N400. Second, it was explored how musicality affects the processing of emotional voice cues, by providing a review on the literature linking musicality to emotion perception and subsequently showing that musicians have a benefit in vocal emotion perception compared to non-musicians. The present data offer original insight into the special role of pitch cues: musicians outperformed non-musicians when emotions were expressed by the pitch contour only, but not when they were expressed by vocal timbre. Although the electrophysiological patterns were less conclusive, they imply that musicality may modulate brain responses to vocal emotions. Third, this work provides a critical reflection on parameter-specific voice morphing and its suitability to study the processing of vocal emotions. Distortions in voice naturalness resulting from extreme acoustic manipulations were identified as one of the major threats to the ecological validity of the stimulus material produced with this technique. However, the results suggested that while voice morphing does affect the perceived naturalness of stimuli, behavioral measures of emotion perception were found to be remarkably robust against these distortions. Thus, the present data advocate parameter-specific voice morphing as a valid tool for vocal emotional research

Pilot study for subgroup classification for autism spectrum disorder based on dysmorphology and physical measurements in Chinese children

Poster Sessions: 157 - Comorbid Medical Conditions: abstract 157.058 58BACKGROUND: Autism Spectrum Disorder (ASD) is a complex neurodevelopmental disorder affecting individuals along a continuum of severity in communication, social interaction and behaviour. The impact of ASD significantly varies amongst individuals, and the cause of ASD can originate broadly between genetic and environmental factors. Objectives: Previous ASD researches indicate that early identification combined with a targeted treatment plan involving behavioural interventions and multidisciplinary therapies can provide substantial improvement for ASD patients. Currently there is no cure for ASD, and the clinical variability and uncertainty of the disorder still remains. Hence, the search to unravel heterogeneity within ASD by subgroup classification may provide clinicians with a better understanding of ASD and to work towards a more definitive course of action. METHODS: In this study, a norm of physical measurements including height, weight, head circumference, ear length, outer and inner canthi, interpupillary distance, philtrum, hand and foot length was collected from 658 Typical Developing (TD) Chinese children aged 1 to 7 years (mean age of 4.19 years). The norm collected was compared against 80 ASD Chinese children aged 1 to 12 years (mean age of 4.36 years). We then further attempted to find subgroups within ASD based on identifying physical abnormalities; individuals were classified as (non) dysmorphic with the Autism Dysmorphology Measure (ADM) from physical examinations of 12 body regions. RESULTS: Our results show that there were significant differences between ASD and TD children for measurements in: head circumference (p=0.009), outer (p=0.021) and inner (p=0.021) canthus, philtrum length (p=0.003), right (p=0.023) and left (p=0.20) foot length. Within the 80 ASD patients, 37(46%) were classified as dysmorphic (p=0.00). CONCLUSIONS: This study attempts to identify subgroups within ASD based on physical measurements and dysmorphology examinations. The information from this study seeks to benefit ASD community by identifying possible subtypes of ASD in Chinese population; in seek for a more definitive diagnosis, referral and treatment plan.published_or_final_versio

A right hemisphere advantage for processing blurred faces

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