TY - JOUR
T1 - Design and evaluation of sound-based electronic football soccer training system for visually impaired athletes
AU - Yandun, Francisco
AU - Auat Cheein, Fernando A.
AU - Lorca, Daniela
AU - Acevedo, Omar
AU - Auat Cheein, Cecilia
N1 - Funding Information:
The authors would like to thank to the National Commission for Scientific and Technological Research of Chile under grants CONICYT-PCHA/Doctorado Nacional/2015-21150694 and Basal FB0008 and DGIIP-UTFSM for partially supporting this work.
Publisher Copyright:
© 2019 The Author(s).
PY - 2019/6/24
Y1 - 2019/6/24
N2 - Background: Several countries encourage the practice of football for rehabilitation and social inclusion purposes. For visually impaired people, football is purely sound-based, where the ball and the players are constantly emitting sounds for localization purposes in the field. However, the task of shooting the ball requires of a non-visually impaired extra person, behind the goal (known as caller), whom is punching the four corner of such goal to help the athletes. The presence of the caller restricts the self-sufficiency of the players. This work addresses such problem, by presenting a goal for visually impaired players with the aim of enhancing their self-sufficiency.Materials and methods: The electronic goal is designed with four functionalities for training purposes, by returning sound-based feedback of its position and the places where the ball has impacted. The system is validated with seven volunteers from Chilean Football Soccer National Team. A questionnaire was answered by the players before and after the tests to statically validate the proposed device.Results: The presented system is portable and designed following a modular criterion suitable for visually impaired people self-assembling. From a test of 350 shootings, the electronic goal showed to enhance the shooting assertiveness from 82 to 92%, and the accuracy from 20 to 56% compared to the traditional caller. Conclusions: The electronic goal showed to enhance the self-sufficiency of athletes, by improving their assertiveness in shooting training. Nevertheless, and according to the responses to the questionnaires, the system needs improvements in its portability and handling.
AB - Background: Several countries encourage the practice of football for rehabilitation and social inclusion purposes. For visually impaired people, football is purely sound-based, where the ball and the players are constantly emitting sounds for localization purposes in the field. However, the task of shooting the ball requires of a non-visually impaired extra person, behind the goal (known as caller), whom is punching the four corner of such goal to help the athletes. The presence of the caller restricts the self-sufficiency of the players. This work addresses such problem, by presenting a goal for visually impaired players with the aim of enhancing their self-sufficiency.Materials and methods: The electronic goal is designed with four functionalities for training purposes, by returning sound-based feedback of its position and the places where the ball has impacted. The system is validated with seven volunteers from Chilean Football Soccer National Team. A questionnaire was answered by the players before and after the tests to statically validate the proposed device.Results: The presented system is portable and designed following a modular criterion suitable for visually impaired people self-assembling. From a test of 350 shootings, the electronic goal showed to enhance the shooting assertiveness from 82 to 92%, and the accuracy from 20 to 56% compared to the traditional caller. Conclusions: The electronic goal showed to enhance the self-sufficiency of athletes, by improving their assertiveness in shooting training. Nevertheless, and according to the responses to the questionnaires, the system needs improvements in its portability and handling.
KW - Echo-localization
KW - Sports rehabilitation
KW - Visually impaired people
UR - http://www.scopus.com/inward/record.url?scp=85068191345&partnerID=8YFLogxK
U2 - 10.1186/s12938-019-0695-5
DO - 10.1186/s12938-019-0695-5
M3 - Article
C2 - 31234912
AN - SCOPUS:85068191345
SN - 1475-925X
VL - 18
JO - BioMedical Engineering OnLine
JF - BioMedical Engineering OnLine
M1 - 76
ER -