Design and validation of an auditory biofeedback system for modification of running parameters

Real-time auditory feedback during sports activities is becoming increasingly popular in view of opportunities for monitoring and movement (re)training in ecological environments. However, the design of an effective feedback strategy is difficult. In this paper, we present a methodical approach to t...

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Veröffentlicht in:	Journal on multimodal user interfaces 2019-09, Vol.13 (3), p.167-180
Hauptverfasser:	Lorenzoni, Valerio, Van den Berghe, Pieter, Maes, Pieter-Jan, De Bie, Tijl, De Clercq, Dirk, Leman, Marc
Format:	Artikel
Sprache:	eng
Schlagworte:	Biofeedback Computer Science Design modifications Distortion Ecological effects Ecological monitoring Gait Image Processing and Computer Vision Music Original Paper Parameter modification Perception Real time Running Signal,Image and Speech Processing Strategy Treadmills User Interfaces and Human Computer Interaction
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container_title	Journal on multimodal user interfaces
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creator	Lorenzoni, Valerio Van den Berghe, Pieter Maes, Pieter-Jan De Bie, Tijl De Clercq, Dirk Leman, Marc
description	Real-time auditory feedback during sports activities is becoming increasingly popular in view of opportunities for monitoring and movement (re)training in ecological environments. However, the design of an effective feedback strategy is difficult. In this paper, we present a methodical approach to the design of an auditory feedback strategy for running gait modification of recreational runners, using distortion of a musical baseline. First tests were conducted to select the best performing auditory distortion signal in terms of clarity and level perception, and to derive the relative perception curve. This was found to be pink noise with an exponential response curve. Further tests were carried out to determine the just noticeable difference of this signal in actual running conditions. Finally, validation tests were performed to examine if the real-time auditory biofeedback, combined with music, could alter the runner’s steps per minute (SPM) during treadmill-based running. The results show that our sonification strategy can alter the mean running SPM in a clear and non-disturbing way, and that our noise-based continuous feedback approach performs better than standard verbal instructions. Even though some of the participants did not respond effectively to the feedback, a large majority of the participants rated the feedback system as pleasant and indicated that they would use such system to improve their running style.
doi_str_mv	10.1007/s12193-018-0283-1
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The results show that our sonification strategy can alter the mean running SPM in a clear and non-disturbing way, and that our noise-based continuous feedback approach performs better than standard verbal instructions. 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subjects	Biofeedback Computer Science Design modifications Distortion Ecological effects Ecological monitoring Gait Image Processing and Computer Vision Music Original Paper Parameter modification Perception Real time Running Signal,Image and Speech Processing Strategy Treadmills User Interfaces and Human Computer Interaction
title	Design and validation of an auditory biofeedback system for modification of running parameters
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