Abstract
The introduction of new information and communication technologies (ICT) in factory environment is leading the world of manufacturing industry to a change. Indeed, we talk about Industry 4.0, the fourth industrial revolution, that facilitates the vision of a Smart Factory in which systems become cyber-physical, interact between themselves, monitor and validate physical processes, creating a virtual copy of the physical world and making decisions based on complex numerical analysis. Virtualization and simulation of production processes generate several benefits, in terms of costs and time, optimizing the assembly line design and studying human-machine interaction. Regarding the last topic, this paper proposes an innovative method for ergonomic analysis of workplaces on automotive assembly lines in a virtual environment. The method can represent an innovation for human-centered design of workplace in developing new products, reducing costs and improving job quality thanks to a preventive ergonomic approach.
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References
Spada, S., et al.: FCA Ergonomics approach in developing new cars: virtual simulations and physical validation. In: Proceedings 19th Triennal Congress of the IEA, Melbourne
Caputo, F., et al.: Upper body motion tracking system with inertial sensors for ergonomic issues in industrial environment. In: Proceedings of the AHFE 2016 International Conference on Physical Ergonomics and Human Factors, Walt Disney World, Florida (2016)
Dobkin, B.H.: Wearable motion sensors to continuously measure real-world physical activities. Curr. Opin. Neurol. 26(6), 602 (2013)
Pascu, T., White, M., Patoli, Z.: Motion capture and activity tracking using smartphone-driven body sensor networks. In: 2013 Third International Conference on Innovative Computing Technology (INTECH), pp. 456–462. IEEE (2013)
Bai, L., et al.: Application of low cost inertial sensors to human motion analysis. In: 2012 IEEE International Instrumentation and Measurement Technology Conference (I2MTC). IEEE (2012)
Roetenberg, D., Luinge, H., Slycke, P.: Xsens MVN: full 6DOF human motion tracking using miniature inertial sensors. Xsens Motion Technologies BV, Technical report (2009)
Zhou, H., Stone, T., Hu, H., Harris, N.: Use of multiple wearable inertial sensors in upper limb motion tracking. Med. Eng. Phys. 30(1), 123–133 (2008)
Yun, X., Bachmann, E.R.: Design, implementation, and experimental results of a quaternion-based Kalman filter for human body motion tracking. IEEE Trans. Robot. 22(6), 1216–1227 (2006)
Inman, V.T., Eberhart, H.D.: The major determinants in normal and pathological gait. J. Bone Joint Surg. Am. 35(3), 543–558 (1953)
Veltink, P., Bussmann, H., de Vries, W., Martens, W., van Lummel, R.: Detection of static and dynamic activities using uniaxial accelerometers. IEEE Trans. Rehabil. Eng. 4, 375–385 (1996)
Boonstra, M., van der Slikke, R., Keijsers, N., van Lummel, R., de Waal Malefijt, M., Verdonschot, N.: The accuracy of measuring the kinematics of rising from a chair with accelerometers and gyroscopes. J. Biomech. 39, 354–358 (2006)
Lyons, G., Culhane, K., Hilton, D., Grace, P., Lyons, D.: A description of an accelerometer-based mobility monitoring technique. Med. Eng. Phys. 27, 497–504 (2005)
Mayagoitia, R., Nene, A., Veltink, P.: Accelerometer and rate gyroscope measurement of the kinematics: an inexpensive alternative to optical motion analysis systems. J. Biomech. 35, 537–542 (2002)
Najafi, B., Aminian, K., Paraschiv-Ionescu, A., Loew, F., Bula, C., Robert, P.: Ambulatory system for human motion analysis using a kinematic sensor: monitoring of daily physical activity in the elderly. IEEE Trans. Biomed. Eng. 50, 711–723 (2003)
Krebs, H., Volpe, B., Aisen, M., Hogan, N.: Increasing productivity and quality of care: robot-aided nero-rehabilitation. J. Rehabil. Res. Dev. 37, 639–652 (2000)
Barbour, N., Schmidt, G.: Inertial sensor technology trends. IEEE Sensors J. 1, 332–339 (2001)
Luinge, H.: Inertial sensing of human movement. Ph.D. thesis, Twente University, The Netherlands (2002)
Schaub, K., Caragnano, G., Britzke, B., Bruder, R.: The European assembly worksheet. Theor. Issues Ergon. Sci. 14(6), 1–23 (2012)
NASA: Man-system integration standards (NASA-STD-3000). In: N.J.S. Centre (ed.) Houston, Texas (1987)
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Caputo, F., Greco, A., D‘Amato, E., Notaro, I., Spada, S. (2018). A Preventive Ergonomic Approach Based on Virtual and Immersive Reality. In: Rebelo, F., Soares, M. (eds) Advances in Ergonomics in Design. AHFE 2017. Advances in Intelligent Systems and Computing, vol 588. Springer, Cham. https://doi.org/10.1007/978-3-319-60582-1_1
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DOI: https://doi.org/10.1007/978-3-319-60582-1_1
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