Estimation of Limbs Angles Amplitudes During the Use of the Five Minute Shaper Device Using Artificial Neural Networks

Cristian Felipe Blanco-Diaz; Cristian David Guerrero-Mendez; Mario Enrique Duarte-González; Sebastián Jaramillo-Isaza

doi:10.1007/978-3-030-86702-7_19

Estimation of Limbs Angles Amplitudes During the Use of the Five Minute Shaper Device Using Artificial Neural Networks

Cristian Felipe Blanco-Diaz, Cristian David Guerrero-Mendez, Mario Enrique Duarte-González, Sebastián Jaramillo-Isaza

Producción científica: Capítulo en Libro/Reporte › Contribución a la conferencia

1 Cita (Scopus)

Resumen

Biomechanical studies are essential in health research areas, such as rehabilitation, kinesiology, orthopedics, and sports. For example, they provide information to elaborate on patients’ diagnostics or improve athletes’ performance. In recent years, deep learning and other computational methods have started to be used to quantify new biomechanical parameters or perform deeper data analysis. Motion capture is one of the methods commonly used in biomechanical studies. For this method, video-based and marker-based systems are the gold standards; nevertheless, those systems are typically quite expensive. Moreover, experimental errors in data capture are frequently related to the occlusion of the markers during motion capture. Data missed is solved by increasing the number of cameras to cover more angles or by using predetermined interpolation algorithms. However, the last method could fail to predict all the marker data missed, and both options increase the cost of the data analysis. For solving those kinds of problems, novel computational methods could be used. This study aims to implement an artificial neural network (ANN) to estimate the limb angle amplitude during the execution of a movement from a single axis (X-axis). For training and validating the ANN model, the data and features from the Five-Minute Shaper machine (a physical conditioning device) are used. The obtained results include RMSE values smaller than 3.2 (Minimum RMSE of 0.96) and CC values close to 0.99. The predicted values are very close to the experimental amplitude angles, and, according to the Two-sample Kolmogorov-Smirnov test, the experimental and the estimated amplitude angles follow the same continuous distribution (p- value> 0.05 ). It is shown that these methods could help researchers in biomechanics to perform accurate analysis, reducing the number of needed cameras and avoid problems due to occlusion by only needing information from a specific axis.

Idioma original	Inglés estadounidense
Título de la publicación alojada	Applied Computer Sciences in Engineering - 8th Workshop on Engineering Applications, WEA 2021, Proceedings
Editores	Juan Carlos Figueroa-García, Yesid Díaz-Gutierrez, Elvis Eduardo Gaona-García, Alvaro David Orjuela-Cañón
Editorial	Springer Science and Business Media Deutschland GmbH
Páginas	213-224
Número de páginas	12
ISBN (versión impresa)	9783030867010
DOI	https://doi.org/10.1007/978-3-030-86702-7_19
Estado	Publicada - 2021
Publicado de forma externa	Sí
Evento	8th Workshop on Engineering Applications, WEA 2021 - Virtual, Online Duración: oct. 6 2021 → oct. 8 2021

Serie de la publicación

Nombre	Communications in Computer and Information Science
Volumen	1431 CCIS
ISSN (versión impresa)	1865-0929
ISSN (versión digital)	1865-0937

Conferencia

Conferencia	8th Workshop on Engineering Applications, WEA 2021
Ciudad	Virtual, Online
Período	10/6/21 → 10/8/21

Áreas temáticas de ASJC Scopus

Ciencia de la Computación General
Matemáticas General

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10.1007/978-3-030-86702-7_19

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Blanco-Diaz, C. F., Guerrero-Mendez, C. D., Duarte-González, M. E., & Jaramillo-Isaza, S. (2021). Estimation of Limbs Angles Amplitudes During the Use of the Five Minute Shaper Device Using Artificial Neural Networks. En J. C. Figueroa-García, Y. Díaz-Gutierrez, E. E. Gaona-García, & A. D. Orjuela-Cañón (Eds.), Applied Computer Sciences in Engineering - 8th Workshop on Engineering Applications, WEA 2021, Proceedings (pp. 213-224). (Communications in Computer and Information Science; Vol. 1431 CCIS). Springer Science and Business Media Deutschland GmbH. https://doi.org/10.1007/978-3-030-86702-7_19

Blanco-Diaz, Cristian Felipe ; Guerrero-Mendez, Cristian David ; Duarte-González, Mario Enrique et al. / Estimation of Limbs Angles Amplitudes During the Use of the Five Minute Shaper Device Using Artificial Neural Networks. Applied Computer Sciences in Engineering - 8th Workshop on Engineering Applications, WEA 2021, Proceedings. editor / Juan Carlos Figueroa-García ; Yesid Díaz-Gutierrez ; Elvis Eduardo Gaona-García ; Alvaro David Orjuela-Cañón. Springer Science and Business Media Deutschland GmbH, 2021. pp. 213-224 (Communications in Computer and Information Science).

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title = "Estimation of Limbs Angles Amplitudes During the Use of the Five Minute Shaper Device Using Artificial Neural Networks",

abstract = "Biomechanical studies are essential in health research areas, such as rehabilitation, kinesiology, orthopedics, and sports. For example, they provide information to elaborate on patients{\textquoteright} diagnostics or improve athletes{\textquoteright} performance. In recent years, deep learning and other computational methods have started to be used to quantify new biomechanical parameters or perform deeper data analysis. Motion capture is one of the methods commonly used in biomechanical studies. For this method, video-based and marker-based systems are the gold standards; nevertheless, those systems are typically quite expensive. Moreover, experimental errors in data capture are frequently related to the occlusion of the markers during motion capture. Data missed is solved by increasing the number of cameras to cover more angles or by using predetermined interpolation algorithms. However, the last method could fail to predict all the marker data missed, and both options increase the cost of the data analysis. For solving those kinds of problems, novel computational methods could be used. This study aims to implement an artificial neural network (ANN) to estimate the limb angle amplitude during the execution of a movement from a single axis (X-axis). For training and validating the ANN model, the data and features from the Five-Minute Shaper machine (a physical conditioning device) are used. The obtained results include RMSE values smaller than 3.2 (Minimum RMSE of 0.96) and CC values close to 0.99. The predicted values are very close to the experimental amplitude angles, and, according to the Two-sample Kolmogorov-Smirnov test, the experimental and the estimated amplitude angles follow the same continuous distribution (p- value> 0.05 ). It is shown that these methods could help researchers in biomechanics to perform accurate analysis, reducing the number of needed cameras and avoid problems due to occlusion by only needing information from a specific axis.",

author = "Blanco-Diaz, {Cristian Felipe} and Guerrero-Mendez, {Cristian David} and Duarte-Gonz{\'a}lez, {Mario Enrique} and Sebasti{\'a}n Jaramillo-Isaza",

note = "Funding Information: This work was supported by the Faculty of Mechanical, Electronics and Biomedical Engineering of Antonio Nari{\~n}o University in Bogot{\'a} Colombia for the Program of Biomedical Engineering. Publisher Copyright: {\textcopyright} 2021, Springer Nature Switzerland AG.; 8th Workshop on Engineering Applications, WEA 2021 ; Conference date: 06-10-2021 Through 08-10-2021",

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Blanco-Diaz, CF, Guerrero-Mendez, CD, Duarte-González, ME & Jaramillo-Isaza, S 2021, Estimation of Limbs Angles Amplitudes During the Use of the Five Minute Shaper Device Using Artificial Neural Networks. En JC Figueroa-García, Y Díaz-Gutierrez, EE Gaona-García & AD Orjuela-Cañón (eds.), Applied Computer Sciences in Engineering - 8th Workshop on Engineering Applications, WEA 2021, Proceedings. Communications in Computer and Information Science, vol. 1431 CCIS, Springer Science and Business Media Deutschland GmbH, pp. 213-224, 8th Workshop on Engineering Applications, WEA 2021, Virtual, Online, 10/6/21. https://doi.org/10.1007/978-3-030-86702-7_19

Estimation of Limbs Angles Amplitudes During the Use of the Five Minute Shaper Device Using Artificial Neural Networks. / Blanco-Diaz, Cristian Felipe; Guerrero-Mendez, Cristian David; Duarte-González, Mario Enrique et al.
Applied Computer Sciences in Engineering - 8th Workshop on Engineering Applications, WEA 2021, Proceedings. ed. / Juan Carlos Figueroa-García; Yesid Díaz-Gutierrez; Elvis Eduardo Gaona-García; Alvaro David Orjuela-Cañón. Springer Science and Business Media Deutschland GmbH, 2021. p. 213-224 (Communications in Computer and Information Science; Vol. 1431 CCIS).

Producción científica: Capítulo en Libro/Reporte › Contribución a la conferencia

TY - GEN

T1 - Estimation of Limbs Angles Amplitudes During the Use of the Five Minute Shaper Device Using Artificial Neural Networks

AU - Blanco-Diaz, Cristian Felipe

AU - Guerrero-Mendez, Cristian David

AU - Duarte-González, Mario Enrique

AU - Jaramillo-Isaza, Sebastián

N1 - Funding Information: This work was supported by the Faculty of Mechanical, Electronics and Biomedical Engineering of Antonio Nariño University in Bogotá Colombia for the Program of Biomedical Engineering. Publisher Copyright: © 2021, Springer Nature Switzerland AG.

PY - 2021

Y1 - 2021

N2 - Biomechanical studies are essential in health research areas, such as rehabilitation, kinesiology, orthopedics, and sports. For example, they provide information to elaborate on patients’ diagnostics or improve athletes’ performance. In recent years, deep learning and other computational methods have started to be used to quantify new biomechanical parameters or perform deeper data analysis. Motion capture is one of the methods commonly used in biomechanical studies. For this method, video-based and marker-based systems are the gold standards; nevertheless, those systems are typically quite expensive. Moreover, experimental errors in data capture are frequently related to the occlusion of the markers during motion capture. Data missed is solved by increasing the number of cameras to cover more angles or by using predetermined interpolation algorithms. However, the last method could fail to predict all the marker data missed, and both options increase the cost of the data analysis. For solving those kinds of problems, novel computational methods could be used. This study aims to implement an artificial neural network (ANN) to estimate the limb angle amplitude during the execution of a movement from a single axis (X-axis). For training and validating the ANN model, the data and features from the Five-Minute Shaper machine (a physical conditioning device) are used. The obtained results include RMSE values smaller than 3.2 (Minimum RMSE of 0.96) and CC values close to 0.99. The predicted values are very close to the experimental amplitude angles, and, according to the Two-sample Kolmogorov-Smirnov test, the experimental and the estimated amplitude angles follow the same continuous distribution (p- value> 0.05 ). It is shown that these methods could help researchers in biomechanics to perform accurate analysis, reducing the number of needed cameras and avoid problems due to occlusion by only needing information from a specific axis.

AB - Biomechanical studies are essential in health research areas, such as rehabilitation, kinesiology, orthopedics, and sports. For example, they provide information to elaborate on patients’ diagnostics or improve athletes’ performance. In recent years, deep learning and other computational methods have started to be used to quantify new biomechanical parameters or perform deeper data analysis. Motion capture is one of the methods commonly used in biomechanical studies. For this method, video-based and marker-based systems are the gold standards; nevertheless, those systems are typically quite expensive. Moreover, experimental errors in data capture are frequently related to the occlusion of the markers during motion capture. Data missed is solved by increasing the number of cameras to cover more angles or by using predetermined interpolation algorithms. However, the last method could fail to predict all the marker data missed, and both options increase the cost of the data analysis. For solving those kinds of problems, novel computational methods could be used. This study aims to implement an artificial neural network (ANN) to estimate the limb angle amplitude during the execution of a movement from a single axis (X-axis). For training and validating the ANN model, the data and features from the Five-Minute Shaper machine (a physical conditioning device) are used. The obtained results include RMSE values smaller than 3.2 (Minimum RMSE of 0.96) and CC values close to 0.99. The predicted values are very close to the experimental amplitude angles, and, according to the Two-sample Kolmogorov-Smirnov test, the experimental and the estimated amplitude angles follow the same continuous distribution (p- value> 0.05 ). It is shown that these methods could help researchers in biomechanics to perform accurate analysis, reducing the number of needed cameras and avoid problems due to occlusion by only needing information from a specific axis.

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DO - 10.1007/978-3-030-86702-7_19

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SN - 9783030867010

T3 - Communications in Computer and Information Science

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EP - 224

BT - Applied Computer Sciences in Engineering - 8th Workshop on Engineering Applications, WEA 2021, Proceedings

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T2 - 8th Workshop on Engineering Applications, WEA 2021

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Blanco-Diaz CF, Guerrero-Mendez CD, Duarte-González ME, Jaramillo-Isaza S. Estimation of Limbs Angles Amplitudes During the Use of the Five Minute Shaper Device Using Artificial Neural Networks. En Figueroa-García JC, Díaz-Gutierrez Y, Gaona-García EE, Orjuela-Cañón AD, editores, Applied Computer Sciences in Engineering - 8th Workshop on Engineering Applications, WEA 2021, Proceedings. Springer Science and Business Media Deutschland GmbH. 2021. p. 213-224. (Communications in Computer and Information Science). doi: 10.1007/978-3-030-86702-7_19

Estimation of Limbs Angles Amplitudes During the Use of the Five Minute Shaper Device Using Artificial Neural Networks

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