Quantifying the Physical Exposure of Material Handlers Pour voir la vidéo, veuillez activer Javascript et considérez mettre à jour votre navigateur à une version supportant le HTML5. To view this video please enable JavaScript, and consider upgrading to a web browser that supports HTML5 video. André Plamondon, researcher at the IRSST, explains the advantages and the limitations of a system that will provide quantitative estimates of the physical exposure of material handlers and evaluate the effectiveness of prevention approaches. From the same project Scientific Reports Measurement system and protocol for quantifying physical exposure of materials handlers R-1005 Scientific Publications Optimization of inertial sensor-based motion capturing for magnetically distorted field applicationsSchiefer C., Ellegast R. P., Hermanns I., Kraus T., Ochsmann E., Larue C. , Plamondon A. Source : Journal of Biomechanical Engineering, vol. 136, no 12, 2014, 8 pSingle pose calibration with inertial measurement units (IMU subject calibration)Robert-Lachaine X., Hakim Mecheri, Larue C. , Bellefeuille S. , Plamondon A. Source : Proceeding of XIV International Symposium on 3D Analysis of Human Movement, Taipei, Taiwan, 2016 (p. 172-175). Retrieved from http://homepage.ntu.edu.tw/~xiv3dahm2016/uploads/3D-AHM%202016-Symposium%20Proceedings.pdfEffect of task complexity and duration when validating an inertial system with an optoelectronic systemRobert-Lachaine X., Hakim Mecheri, Larue C. , Plamondon A. Source : Proceeding of 9th International Scientific Conference on the Prevention of Work-Related Musculoskeletal Disorders (PREMUS 2016), Toronto, ON, 2016 (pp. 15). Retrieved from https://premus2016.iwh.on.ca/doc/PREMUS2016_Book_of_Abstracts.pdfOrientation drift compensation of inertial sensors in magnetically distorted field applicationsSchiefer C., Ellegast R. P., Hermanns I., Kraus T., Ochsmann E., Larue C. , Plamondon A. Source : Proceeding of 9th International Scientific Conference on the Prevention of Work-Related Musculoskeletal Disorders (PREMUS 2016), Toronto, ON, 2016 (pp. 14). Retrieved from https://premus2016.iwh.on.ca/doc/PREMUS2016_Book_of_Abstracts.pdfUsing inertial sensors to monitor workers’ trunk posture: the case of daycare workersDumas G., Plamondon A. , Diesbourg T.Source : Proceeding of 9th International Scientific Conference on the Prevention of Work-Related Musculoskeletal Disorders (PREMUS 2016), Toronto, ON, 2016 (pp. 13). Retrieved from https://premus2016.iwh.on.ca/doc/PREMUS2016_Book_of_Abstracts.pdfEvaluation of eight methods for aligning orientation of two coordinate systemsHakim Mecheri, Robert-Lachaine X., Larue C. , Plamondon A. Source : (2016). Journal of Biomechanical Engineering, 138(8). doi: doi:10.1115/1.4033719Feasibility of quantifying the physical exposure of material handlers in the workplace with an inertial systemPlamondon A. , Larue C. , Robert-Lachaine X., Denis D. , Corbeil P., Delisle A.Source : (2018). Communication présentée à 20th Congress of the International Ergonomic Association, Florence, Italie.Accuracy and repeatability of single-pose calibration of inertial measurement units for whole-body motion analysisRobert-Lachaîne X. , Hakim Mecheri, Larue C., Plamondon A. Source : (2017). Gait & Posture, 54, 80-86. doi: 10.1016/j.gaitpost.2017.02.029Feasibility of quantifying the physical exposure of materials handlers in the workplace with magnetic and inertial measurement unitsRobert-Lachaîne X. , Larue C., Denis D. , Delisle A., Hakim Mecheri, Corbeil P., Plamondon A. Source : (2020). Ergonomics, 63(3), 283-292. doi: 10.1080/00140139.2019.1612941Validation of inertial measurement units with an optoelectronic system for whole-body motion analysisRobert-Lachaîne X. , Hakim Mecheri, Larue C., Plamondon A. Source : (2017). Medical & Biological Engineering & Computing, 55(4), 609-619. doi: 10.1007/s11517-016-1537-2Effect of local magnetic field disturbances on inertial measurement units accuracyRobert-Lachaîne X. , Hakim Mecheri, Larue C., Plamondon A. Source : (2017). Applied Ergonomics, 63, 123-132. doi: 10.1016/j.apergo.2017.04.011Offset correction when comparing 3D joint angles from two different motion capture systemsHakim Mecheri, Robert-Lachaîne X. , Larue C. , Plamondon A. Source : Communication présentée à 4th International Digital Human Modeling Symposium (DHM2016), Montréal, QC, 2016 (p. 1-4). Simplified Articles ManutentionVers une connaissance plus précise des exigences physiques Vol 31, N° 3 From the same series: Research Flash (2018) Promoting the application of prevention practices in hospitals Stratégie intégrée de prévention en manutention (SIPM) Related Publications Evaluation of workplace back strain: preliminary development of a method to determine the three dimensional kinematics of the human body using a minimum of video cameras(Publication) Development of a measuring instrument for quantifying trunk postures and displacements in the workplace(Publication) Measurement of exposure to musculoskeletal risk factors among emergency medical technician-paramedics(Publication) Validation of a New Inertial Measurement System to Estimate Human Body Kinematics: The Case of Manual Material Handlers(Publication) The work of emergency medical technician-paramedics: Understanding the risks in order to prevent musculoskeletal disorders(Publication) Technicien ambulancier paramédical : un métier à risque(Video) Measurement of paramedic ambulance technicians’ exposure to musculoskeletal disorder risk factors(Video) Field Measurements and Observations for Prevention: The Case of Paramedical Ambulance Technicians(Video) Additional Information Collection: Video reports and conferences Category: Video Summary On screen: André Plamondon Produced by: André Plamondon - Written and ProducedEdith Vinet - Written and ProducedChristian Larue - Written, Produced and Post-producedPhilippe Lemay - Written, Produced and Post-Produced Research Project: 2012-0040 Research Field: OSH and Sustainable Prevention Work Environment Publication no.: CS-019 Language: French Online since: April 12, 2018 Recorded date: April 04, 2018 Format: Video Duration: 1:55