The proceedings contain 36 papers. The special focus in this conference is on Science, Technology, and Applications. The topics include: Identification and evaluation of perceptual attributes for periodic whole-body and hand-arm vibration; influence of shape elements on performance during haptic rotation; effects of Chai3D texture rendering parameters on texture perception; effect of control movement scale on visual haptic interactions; tactile apparent motion through human-human physical touch; preliminary stiffness perception assessment for a tele-palpation haptic interface; passive probing perception: Effect of latency in visual-haptic feedback; perceived frequency of aperiodic vibrotactile stimuli depends on temporal encoding; haptic tracing of midair linear trajectories presented by ultrasound bessel beams; is cross-modal matching necessary? A bayesian analysis of individual reference cues; asymmetric cooling and heating perception; haptic scene analysis: Mechanical property separation despite parasitic dynamics; influence of scanning velocity on skin vibration for coarse texture; judged roughness as a function of groove frequency and groove width in 3D-printed gratings; using spatiotemporal modulation to draw tactile patterns in mid-air; discovering articulations by touch: A human study for robotics applications; a multimodal illusion of force improves control perception in above-surface gesture: Elastic zed-zoom; pseudohaptic feedback for teleoperated gripping interactions; a pilot study: Introduction of time-domain segment to intensity-based perception model of high-frequency vibration; haptic human-human interaction through a compliant connection does not improve motor learning in a force field; differences in beta oscillation of the middle frontal cortex with or without tactile stimulation in active touch task; relative sensation of wetness of different materials.
Prattichizzo, D., Shinoda, H., Tan, H.Z., Ruffaldi, E., Frisoli, A. (a cura di). (2018). Haptics: Science, Technology, and Applications, 11th International Conference, EuroHaptics 2018, Pisa, Italy, June 13-16, 2018, Proceedings, Part II. Springer [10.1007/978-3-319-93399-3].
Haptics: Science, Technology, and Applications, 11th International Conference, EuroHaptics 2018, Pisa, Italy, June 13-16, 2018, Proceedings, Part II
D. Prattichizzo;
2018-01-01
Abstract
The proceedings contain 36 papers. The special focus in this conference is on Science, Technology, and Applications. The topics include: Identification and evaluation of perceptual attributes for periodic whole-body and hand-arm vibration; influence of shape elements on performance during haptic rotation; effects of Chai3D texture rendering parameters on texture perception; effect of control movement scale on visual haptic interactions; tactile apparent motion through human-human physical touch; preliminary stiffness perception assessment for a tele-palpation haptic interface; passive probing perception: Effect of latency in visual-haptic feedback; perceived frequency of aperiodic vibrotactile stimuli depends on temporal encoding; haptic tracing of midair linear trajectories presented by ultrasound bessel beams; is cross-modal matching necessary? A bayesian analysis of individual reference cues; asymmetric cooling and heating perception; haptic scene analysis: Mechanical property separation despite parasitic dynamics; influence of scanning velocity on skin vibration for coarse texture; judged roughness as a function of groove frequency and groove width in 3D-printed gratings; using spatiotemporal modulation to draw tactile patterns in mid-air; discovering articulations by touch: A human study for robotics applications; a multimodal illusion of force improves control perception in above-surface gesture: Elastic zed-zoom; pseudohaptic feedback for teleoperated gripping interactions; a pilot study: Introduction of time-domain segment to intensity-based perception model of high-frequency vibration; haptic human-human interaction through a compliant connection does not improve motor learning in a force field; differences in beta oscillation of the middle frontal cortex with or without tactile stimulation in active touch task; relative sensation of wetness of different materials.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
https://hdl.handle.net/11365/1065941