Towards the Enhancement of Body Standing Balance Recovery by Means of a Wireless Audio-Biofeedback System
Giovanni Costantini, Daniele Casali, Fabio Paolizzo, Marco, Alessandrini, Alessandro Micarelli, Andrea Viziano, Giovanni Saggio

TL;DR
This study presents a wireless audio-biofeedback system designed to enhance balance recovery by providing real-time auditory alerts based on trunk movement, showing promising results in reducing sway among different age groups.
Contribution
The paper introduces a novel wireless biofeedback system that uses audio cues to improve balance, especially in populations with impaired sensorimotor control.
Findings
System reduced body sway by up to 65.9%
Effective across different age groups and test conditions
Demonstrated usability, reliability, and effectiveness in balance improvement
Abstract
Human maintain their body balance by sensorimotor controls mainly based on information gathered from vision, proprioception and vestibular systems. When there is a lack of information, caused by pathologies, diseases or aging, the subject may fall. In this context, we developed a system to augment information gathering, providing the subject with warning audio-feedback signals related to his/her equilibrium. The system comprises an inertial measurement unit (IMU), a data processing unit, a headphone audio device and a software application. The IMU is a low-weight, small-size wireless instrument that, body-back located between the L2 and L5 lumbar vertebrae, measures the subject's trunk kinematics. The application drives the data processing unit to feeding the headphone with electric signals related to the kinematic measures. Consequently, the user is audio-alerted, via headphone, of…
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