Impact of PCA Pre-Normalization Methods on Ground Reaction Force Estimation Accuracy-Reference-Cited by-同舟云学术

Impact of PCA Pre-Normalization Methods on Ground Reaction Force Estimation Accuracy

Published:2024-02-09 Issue:4 Volume:24 Page:1137
ISSN:1424-8220
Container-title:Sensors
language:en
Short-container-title:Sensors

Author:

Kammoun Amal¹²^ORCID,Ravier Philippe¹^ORCID,Buttelli Olivier¹³^ORCID

Affiliation:

1. PRISME Laboratory, University of Orleans, 12 Rue de Blois, 45100 Orleans, France

2. Emka-Electronique Company, ZA du Patureau de la Grange, 41200 Romorantin-Lanthenay, France

3. Research Group Sport, Physical Activity, Rehabilitation and Movement for Performance and Health (SAPRèM), University of Orleans, 45100 Orleans, France

Abstract

Ground reaction force (GRF) components can be estimated using insole pressure sensors. Principal component analysis in conjunction with machine learning (PCA-ML) methods are widely used for this task. PCA reduces dimensionality and requires pre-normalization. In this paper, we evaluated the impact of twelve pre-normalization methods using three PCA-ML methods on the accuracy of GRF component estimation. Accuracy was assessed using laboratory data from gold-standard force plate measurements. Data were collected from nine subjects during slow- and normal-speed walking activities. We tested the ANN (artificial neural network) and LS (least square) methods while also exploring support vector regression (SVR), a method not previously examined in the literature, to the best of our knowledge. In the context of our work, our results suggest that the same normalization method can produce the worst or the best accuracy results, depending on the ML method. For example, the body weight normalization method yields good results for PCA-ANN but the worst performance for PCA-SVR. For PCA-ANN and PCA-LS, the vector standardization normalization method is recommended. For PCA-SVR, the mean method is recommended. The final message is not to define a normalization method a priori independently of the ML method.

Funder

French “Association Nationale Recherche Technologie” (ANRT) and Emka-Electronique Company

Publisher

MDPI AG

Link

https://www.mdpi.com/1424-8220/24/4/1137/pdf

Reference24 articles.

1. Hadi, R.H., Hady, H.N., Hasan, A.M., Al-Jodah, A., and Humaidi, A.J. (2023). Improved Fault Classification for Predictive Maintenance in Industrial IoT Based on AutoML: A Case Study of Ball-Bearing Faults. Processes, 11.

2. Monthly Rainfall Forecasting Using One-Dimensional Deep Convolutional Neural Network;Haidar;IEEE Access,2018

3. Jamil, F., Iqbal, N., Ahmad, S., and Kim, D.-H. (2020). Toward Accurate Position Estimation Using Learning to Prediction Algorithm in Indoor Navigation. Sensors, 20.

4. Oliveira, A.S., Pirscoveanu, C., and Rasmussen, J. (2022). Predicting vertical ground reaction forces in running from the sound of footsteps. Sensors, 22.

5. Honert, E.C., Hoitz, F., Blades, S., Nigg, S.R., and Nigg, B.M. (2022). Estimating Running Ground Reaction Forces from Plantar Pressure during Graded Running. Sensors, 22.

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