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Machine learning-based classification model corresponding to the paper 'Machine learning to improve orientation estimation in sports situations challenging for inertial sensor use'
Machine learning-based classification model corresponding to the paper 'Machine learning to improve orientation estimation in sports situations challenging for inertial sensor use'
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Description
Machine learning model as used in 'Machine learning to improve orientation estimation in sports situations challenging for inertial sensor use'. The model to run the Extended Madgwick filter is based on a random forest algorithm and can be used as explained in Figure 3 in the paper.
Explanation for use:The model can be loaded and executed in Python using the following code- RFmodel = pickle.load(open([filename_RFmodel], 'rb'))- y = RFmodel.predict_proba(X)[:,1]- if y > 0.5 EFcorrect = 1 else EFcorrect = 0 X are (normalized) input variablesy are probabilities for EFcorrect (see paper)
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- CC-BY-SA-4.0
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Mentions
- 1.Author(s): Luna Panni, Gloria Cosoli, Marco Arnesano, Federico Citarelli, Luca Antognoli, Lorenzo ScalisePublished in 2024 IEEE International Symposium on Medical Measurements and Applications (MeMeA) by IEEE in 2024, page: 1-610.1109/memea60663.2024.10596895
- 2.Author(s): Enrico Ferlinghetti, Jelmer Braaksma, Riemer Vegter, Matteo LanciniPublished in 2024 IEEE International Symposium on Medical Measurements and Applications (MeMeA) by IEEE in 2024, page: 1-610.1109/memea60663.2024.10596820
- 3.Author(s): Enrico Ferlinghetti, Inge Salzmann, Marco Ghidelli, Thomas Rietveld, Riemer Vegter, Matteo LanciniPublished in 2023 IEEE International Symposium on Medical Measurements and Applications (MeMeA) by IEEE in 2023, page: 1-610.1109/memea57477.2023.10171886
- 1.Author(s): Fang Wang, Shunnan Jiang, Jun LiPublished in Applied Sciences by MDPI AG in 2025, page: 566710.3390/app15105667
- 2.Author(s): Marit P. van Dijk, Marco J.M. Hoozemans, Monique A.M. Berger, H.E.J. VeegerPublished in Journal of Biomechanics by Elsevier BV in 2024, page: 11205210.1016/j.jbiomech.2024.112052
- 3.Author(s): Enrico Ferlinghetti, Inge Salzmann, Marco Ghidelli, Thomas Rietveld, Riemer Vegter, Matteo LanciniPublished in IEEE Transactions on Instrumentation and Measurement by Institute of Electrical and Electronics Engineers (IEEE) in 2024, page: 1-1010.1109/tim.2023.3347811
- 4.Author(s): Marit P. van Dijk, Marco J.M. Hoozemans, Monique A.M. Berger, DirkJan H.E.J. VeegerPublished in Journal of Biomechanics by Elsevier BV in 2024, page: 11192710.1016/j.jbiomech.2024.111927
- 5.Author(s): Marit P. van Dijk, Louise I. Heringa, Monique A.M. Berger, Marco J.M. Hoozemans, DirkJan H.E. J. VeegerPublished in Journal of Sports Sciences by Informa UK Limited in 2024, page: 611-62010.1080/02640414.2024.2353405
- 6.Author(s): Jakub Kaszyński, Cezary Baka, Martyna Białecka, Przemysław LubiatowskiPublished in Sensors by MDPI AG in 2023, page: 749910.3390/s23177499
- 7.Author(s): Liguo Zhang, Liangyu Zhao, Yongtao YanPublished in Mathematical Biosciences and Engineering by American Institute of Mathematical Sciences (AIMS) in 2023, page: 1017-103710.3934/mbe.2024042
- 8.Author(s): Paul W. Hodges, Wolbert van den HoornPublished in Journal of Spine Surgery by AME Publishing Company in 2022, page: 103-11610.21037/jss-21-112
- 9.Author(s): Vera G. de Vette, DirkJan (H. E. J.) Veeger, Marit P. van DijkPublished in Sensors by MDPI AG in 2022, page: 5010.3390/s23010050
- 10.Author(s): Marit P. van Dijk, Rienk M.A. van der Slikke, Rob Rupf, Marco J.M. Hoozemans, Monique A.M. Berger, DirkJan H.E.J. VeegerPublished in Journal of Biomechanics by Elsevier BV in 2022, page: 11087910.1016/j.jbiomech.2021.110879
- 11.Author(s): Capucine Fritsch, Yoann Poulet, Joseph Bascou, Patricia Thoreux, Christophe SauretPublished in Frontiers in Rehabilitation Sciences by Frontiers Media SA in 202210.3389/fresc.2022.863113
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Marit van Dijk
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