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Tactile Perception (tactile + perception)
Selected AbstractsTranscranial direct current stimulation disrupts tactile perceptionEUROPEAN JOURNAL OF NEUROSCIENCE, Issue 1 2004Andreas Rogalewski Abstract The excitability of the cerebral cortex can be modulated by various transcranial stimulation techniques. Transcranial direct current stimulation (tDCS) offers the advantage of portable equipment and could, therefore, be used for ambulatory modulation of brain excitability. However, modulation of cortical excitability by tDCS has so far mostly been shown by indirect measures. Therefore, we examined whether tDCS has a direct behavioral/perceptional effect. We compared tactile discrimination of vibratory stimuli to the left ring finger prior to, during and after tDCS applied for 7 min at 1-mA current intensity in 13 subjects. Stimulation was pseudorandomized into cathodal, anodal and sham conditions in a within-subject design. The active electrode was placed over the corresponding somatosensory cortex at C4 according to the 10,20 EEG system and the reference electrode at the forehead above the contralateral orbita. Cathodal stimulation compared with sham induced a prolonged decrease of tactile discrimination, while anodal and sham stimulation did not. Thus, cortical processing can be modulated in a behaviorally/perceptually meaningful way by weak transcranial current stimulation applied through portable technology. This finding offers a new perspective for the treatment of conditions characterized by alterations of cortical excitability. [source] Objective emotional assessment of tactile hair properties and their modulation by different product worldsINTERNATIONAL JOURNAL OF COSMETIC SCIENCE, Issue 3 2002W. Boucsein Synopsis Tactile properties of cosmetic products constitute weak stimuli and thus can be expected to be easily modified by mental images. In order to enhance an intended positive-emotion-inducing effect of such a product, its experience can be embedded in a certain ,world' that generates a positive emotional imagination. The present study investigated such an influence in 12 males and 12 females, half of each being laymen and experts in sensory assessment. Two product worlds (emotional and technical) and three different hair samples, two of them treated with different shampoos and an untreated one as control, were presented to each subject in counter-balanced order of all six combinations. An objective emotional assessment using a psychophysiological technique developed in an earlier study was applied and compared with a traditional sensory assessment. Among the physiological measures, peripheral blood volume and facial muscular activity were the most sensitive in revealing effects of and interactions between the product worlds and hair samples. A multivariate evaluation of the physiological data revealed three discriminant functions that explained 78.4% of the total variance and enabled a re-classification considerably better than chance. The first discriminant function clearly separated the treated from the untreated hair samples which was not possible by subjective ratings or traditional sensory assessment. The two other discriminant functions comprised a hedonistic and a product world factor. The emotional product world exerted the largest influence in case of the weakest tactile differences between the hair samples, and its influence was larger on laymen than on experts. Gender effects were most prominent in the subjective domain. In conclusion, multivariate psychophysiological methodology is superior to traditional sensory assessment in revealing subtle differences in the tactile perception of cosmetic products. Résumé Les propriétés tactiles des produits cosmétiques constituent de faibles stimuli, de sorte que l'on peut s'attendre à ce qu'elles soient facilement modifiées par des images mentales. Afin d'intensifier l'effet intentionnellement incitant à une émotion positive envers un tel produit, son expérience peut être introduite dans un certain ,environnement' qui engendrerait une imagination émotionelle positive. La présente étude a testé telle influence sur 12 hommes et 12 femmes, la moitié de chaque groupe étant noninitiée et l'autre experte en évaluation sensorielle. Nous avons présentéà chaque sujet, par ordre contrebalancé des six possibilités, deux ,environnements' du produit (émotif et technique), et trois différents échantillons capillaires dont deux où les cheveux étaient traités par différents shampooings, et, pour le contrôle, un échantillon de cheveux nontraités. Nous avons employé une évaluation émotionelle objective par une technique psychophysiologique développée durant une étude précédente et l'avons comparée à une évaluation sensorielle traditionnelle. Parmi les mesures physiologiques, le volume sanguin périphérique et les activités des muscles faciaux étaient exceptionnellement sensibles à manifester les effets des ,environnements' du produit, et des échantillons, ainsi que les interactions entre eux. Une évaluation multivariante des données physiologiques dévoila trois fonctions discriminantes expliquant les 78.4% de l'ensemble de la variance, et permettant une re-classification considérablement meilleure que le hasard. La première fonction discriminante a nettement distingué les échantillons de cheveux traités de ceux nontraités; ce qui n'était pas possible à travers une évaluation subjective ou des mesures sensorielles traditionnelles. Les deux autres fonctions discriminantes comportaient un facteur hédoniste et d'environnement du produit. Dans le cas des plus faibles différences tactiles entre les échantillons capillaires, l'environnement émotif du produit a exercé plus d'influence sur les noninitiés que sur les experts. Les effets du genre humain étaient surtout marquants dans le domaine subjectif. En conclusion, pour dévoiler les subtiles différences dans la perception tactile des produits cosmétiques, la méthodologie psychophysiologique multivariante est supérieure à l'évaluation sensorielle traditionnelle. [source] Autism: tactile perception and emotionJOURNAL OF INTELLECTUAL DISABILITY RESEARCH, Issue 8 2007E. Pernon Abstract Background For many years, and especially since Waynbaum and Wallon, psychology and psychopathology have dealt with cognitive perception, but have had little to do with the affective qualities of perception. Our aim was to study the influence of the sensory environment on people with autism. Method Several experiments were carried out using different forms of tactile stimulation (passive and active subjects). Results Our data showed specific responses in children with autism and intellectual disability. These children displayed a strong (positive) valence to the stimulation provided. Conclusion They were very attracted to the stimulation and were excited by it. [source] Human tactile perception as a standard for artificial tactile sensing,a reviewTHE INTERNATIONAL JOURNAL OF MEDICAL ROBOTICS AND COMPUTER ASSISTED SURGERY, Issue 1 2004J Dargahi Abstract In this paper, we examine the most important features of human skin tactile properties with special emphasis on the characteristics which are vital in the design of artificial systems. Contrary to the visual and auditory senses, the touch signal is not a well-defined quantity. As a result, the researchers of this field are still dealing with the basics of collecting the most relevant data. Following this, mimicking the sense of touch by producing artificial tactile skin is a challenging process. Although the sense of touch is widely distributed all over the human body, the tactile perception in the human hand is of great importance in terms of surgical and medical robotics applications. In this study, the role of various mechanoreceptors in the human hand, such as, RA, SA I, SA II, and PC units are discussed in relation to the stimuli like force, position, softness, and surface texture. Taking human hand as a suitable tactile model, the necessary engineering features of an artificial tactile sensor, such as, spatial and temporal resolutions, force sensitivity, and linearity, are being reviewed. In this work, we also report on the current and possible future applications of tactile sensors in various surgical procedures. Copyright © 2004 Robotic Publications Ltd. [source] Dispersion and Accuracy of Simulated Phosphene Positioning Using Tactile BoardARTIFICIAL ORGANS, Issue 12 2009Leilei Zhang Abstract The evaluation of phosphene is one of the most important things after the electrode array's implantation. Some experiments have been used to study the basic rules on people using their tactile perception in describing the characteristics of simulated phosphenes, such as the dispersion, accuracy, and response time. In order to describe the simulated phosphenes more systematically and scientifically, an improved phosphene-positioning method using tactile board was designed in this study. Using tactile board to guide the tactile perception, the dispersion was limited to less than 6 mm, while the largest mean error was 8.1 mm, which was nearly equal to the minimal resolution of tactile board (8 mm). The response time greatly increased because of the standard processes in using tactile board. Moreover, the long-term experiment to repeat the procedure could improve and sustain the subjects' performance in good results. [source] | ||||||||||