Abstract
Human physical interactions can be intrapersonal, e.g., manipulating an object bimanually, or interpersonal, e.g., transporting an object with another person. In both cases, one or two agents are required to coordinate their limbs to attain the task goal. We investigated the physical coordination of two hands during an object-balancing task performed either bimanually by one agent or jointly by two agents. The task consisted of a series of static (holding) and dynamic (moving) phases, initiated by auditory cues. We found that task performance of dyads was not affected by different pairings of dominant and non-dominant hands. However, the spatial configuration of the two agents (side-by-side vs. face-to-face) appears to play an important role, such that dyads performed better side-by-side than face-to-face. Furthermore, we demonstrated that only individuals with worse solo performance can benefit from interpersonal coordination through physical couplings, whereas the better individuals do not. The present work extends ongoing investigations on human-human physical interactions by providing new insights about factors that influence dyadic performance. Our findings could potentially impact several areas, including robotic-assisted therapies, sensorimotor learning and human performance augmentation.
Highlights
An important component of social behavior is the ability to coordinate actions with another person without verbal communication
The results of the analysis of object tilt during the dynamic phases were similar to those presented for the static phases, except for pairwise comparisons revealing significantly smaller mean absolute value (MAV)(e)) for the Bi group than all the dyadic conditions (p < 0.05)
We demonstrated that the role of interpersonal coordination during physicallycoupled joint actions is complex
Summary
An important component of social behavior is the ability to coordinate actions with another person without verbal communication Such coordination has been investigated extensively using tasks that impose visual or auditory coupling between two agents, such as finger tapping and pendulum swing, to characterize social coordination and underlying neural mechanisms (Schmidt et al, 1998; Sebanz et al, 2006; Richardson et al, 2008; Konvalinka et al, 2010; Fine and Amazeen, 2011; Yun et al, 2012; Masumoto and Inui, 2013, 2015; Solnik et al, 2015, 2016).
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