Stefano Papetti scite author profile

An experiment was conducted to study the effects of force produced by active touch on vibrotactile perceptual thresholds. The task consisted in pressing the fingertip against a flat rigid surface that provided either sinusoidal or broadband vibration. Three force levels were considered, ranging from light touch to hard press. Finger contact areas were measured during the experiment, showing positive correlation with the respective applied forces. Significant effects on thresholds were found for vibration type and force level. Moreover, possibly due to the concurrent effect of large (unconstrained) finger contact areas, active pressing forces, and long duration stimuli, the measured perceptual thresholds are considerably lower than what previously reported in the literature.

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Might as Well Jump: Sound Affects Muscle Activation in Skateboarding

Cesari

Camponogara

Papetti

et al. 2014

PLoS ONE

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The aim of the study is to reveal the role of sound in action anticipation and performance, and to test whether the level of precision in action planning and execution is related to the level of sensorimotor skills and experience that listeners possess about a specific action. Individuals ranging from 18 to 75 years of age - some of them without any skills in skateboarding and others experts in this sport - were compared in their ability to anticipate and simulate a skateboarding jump by listening to the sound it produces. Only skaters were able to modulate the forces underfoot and to apply muscle synergies that closely resembled the ones that a skater would use if actually jumping on a skateboard. More importantly we showed that only skaters were able to plan the action by activating anticipatory postural adjustments about 200 ms after the jump event. We conclude that expert patterns are guided by auditory events that trigger proper anticipations of the corresponding patterns of movements.

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Detection of keyboard vibrations and effects on perceived piano quality

Fontana

Papetti

Järveläinen

et al. 2017

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Two experiments were conducted on an upright and a grand piano, both either producing string vibrations or conversely being silent after the initial keypress, while pianists were listening to the feedback from a synthesizer through insulating headphones. In a quality experiment, participants unaware of the silent mode were asked to play freely and then rate the instrument according to a set of attributes and general preference. Participants preferred the vibrating over the silent setup, and preference ratings were associated to auditory attributes of richness and naturalness in the low and middle ranges. Another experiment on the same setup measured the detection of vibrations at the keyboard, while pianists played notes and chords of varying dynamics and duration. Sensitivity to string vibrations was highest in the lowest register and gradually decreased up to note D5. After the percussive transient, the tactile stimuli exhibited spectral peaks of acceleration whose perceptibility was demonstrated by tests conducted in active touch conditions. The two experiments confirm that piano performers perceive vibratory cues of strings mediated by spectral and spatial summations occurring in the Pacinian system in their fingertips, and suggest that such cues play a role in the evaluation of quality of the musical instrument.

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Numerical Methods for a Nonlinear Impact Model: A Comparative Study With Closed-Form Corrections

Papetti

Avanzini

Rocchesso

2011

IEEE Trans. Audio Speech Lang. Process.

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A physically based impact model-already known and exploited in the field of sound synthesis-is studied using both analytical tools and numerical simulations. It is shown that the Hamiltonian of a physical system composed of a mass impacting on a wall can be expressed analytically as a function of the mass velocity during contact. Moreover, an efficient and accurate approximation for the mass outbound velocity is presented, which allows to estimate the Hamiltonian at the end of the contact. Analytical results are then compared to numerical simulations obtained by discretizing the system with several numerical methods. It is shown that, for some regions of the parameter space, the trajectories of the discretized systems may significantly drift from the analytically derived curves. Two approaches, based on enforcing numerical energy consistency, are then proposed to improve the accuracy of numerical simulations

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Musical Haptics: Introduction

Papetti

Saitis

2018

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This chapter introduces to the concept of musical haptics, its scope, aims, challenges, as well as its relevance and impact for general haptics and humancomputer interaction. A brief summary of subsequent chapters is given. 1.1 Scope and Goals Musical haptics is an emerging interdisciplinary field investigating touch and proprioception in music scenarios from the perspectives of haptic engineering, humancomputer interaction (HCI), applied psychology, musical acoustics, aesthetics, and music performance. The goals of musical haptics research may be summarized as: (i) to understand the role of haptic interaction in music experience and instrumental performance, and (ii) to create new musical devices yielding meaningful haptic feedback. 1.2 Haptic Cues in Music Practice and Fruition Whenever an acoustic or electroacoustic musical instrument produces sound, that comes from its vibrating components (e.g., the reed and air column in a clarinet, or the strings and soundboard of a piano). While performing on such instruments, the haptic channel is involved in a complex action-perception loop: The player physically interacts with the instrument, on the one hand, to generate sound by injecting energy in

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Stefano Papetti

Vibrotactile Sensitivity in Active Touch: Effect of Pressing Force

Might as Well Jump: Sound Affects Muscle Activation in Skateboarding

Detection of keyboard vibrations and effects on perceived piano quality

Numerical Methods for a Nonlinear Impact Model: A Comparative Study With Closed-Form Corrections

Musical Haptics: Introduction

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