JOURNAL ARTICLE
Robot-mediated haptic feedback outperforms vision in violin duo coordination.
Published In: Science Robotics, 2026, v. 11, n. 112. P. 1 1 of 3
Database: Applied Science & Technology Source Ultimate 2 of 3
Authored By: Michałko, Aleksandra; Di Tommaso, Francesco; Peperoni, Emanuele; Capitani, Stefano L.; Noccaro, Alessia; Parri, Andrea; Gener, Canan; Conti, Roberto; Di Stefano, Nicola; Tagliamonte, Nevio Luigi; Grazi, Lorenzo; Giovacchini, Francesco; Crea, Simona; Trigili, Emilio; Vitiello, Nicola; Leman, Marc; Formica, Domenico 3 of 3
Abstract
Joint actions among humans rely on the integration of multiple sensory modalities, most notably auditory and visual cues, which support explicit communication between partners. However, haptic feedback provides a direct, implicit channel for sensorimotor communication, and its contribution to fine motor coordination in joint actions remains largely unexplored. Here, we demonstrate that haptic communication, rendered through bidirectionally coupled wearable robots, outperforms traditional auditory-visual feedback in a complex and challenging real-life joint action: ensemble violin performance. First, we developed a pair of two–degree-of-freedom upper-limb exoskeletons capable of transparently following violinists' natural movements and rendering viscoelastic torques proportional to the joint angular deviation between the partners. Then, we designed a within-subject experiment with 20 violin duos performing a musical piece under four sensory feedback conditions: auditory (A), auditory-visual (AV), auditory-haptic (AH), and auditory-visual-haptic (AVH), across two tempi (72 and 100 beats per minute). Despite the musicians being unfamiliar with the robot-mediated haptic feedback and unaware of the bidirectional connection between them, haptic feedback (AH and AVH) substantially enhanced spatiotemporal coordination and dynamic musical alignment compared with the extensively trained auditory-visual feedback (A and AV). The multisensory feedback condition AVH yielded the highest scores across all measures. Our findings demonstrate that haptic feedback can support fine motor coordination in violin duo performance more effectively than visual cues, particularly for professional musicians, because of its implicit and embodied nature, and that it can be effectively delivered via wearable robots, expanding the paradigms of human-human sensorimotor interactions. [ABSTRACT FROM AUTHOR]
Additional Information
- Source:Science Robotics. 2026/03, Vol. 11, Issue 112, p1
- Document Type:Article
- Subject Area:Health and Medicine
- Publication Date:2026
- ISSN:24709476
- DOI:10.1126/scirobotics.aeb1901
- Accession Number:193009995
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