Rome: July 19th, 2024

Research Activities @ BioLab3


You looked into tags for ergonomics, these are the results:

Publications on International Journals
G. Chini, T. Varrecchia, S. Conforto, A.M. De Nunzio, F. Draicchio, D. Falla, A. Ranavolo. Trunk stability in fatiguing frequency-dependent lifting activities. Gait & Posture, 102: 72-79, 2023
T. Varrecchia, A. Ranavolo, G. Chini, A.M. De Nunzio, F. Draicchio, E. Martinez-Valdes, D. Falla, S. Conforto. High-density surface electromyography allows to identify risk conditions and people with and without low back pain during fatiguing frequency-dependent lifting activities. Journal of Electromyography and Kinesiology, 73: 102839, 2023
T. Varrecchia, S. Conforto, AM De Nunzio, F. Draicchio, D. Falla, A. Ranavolo. Trunk muscle coactivation in people with and without low back pain during fatiguing frequency-dependent lifting activities. Sensors, 22(7): 1417, 2022
T. Varrecchia, A. Ranavolo, S. Conforto, A.M. De Nunzio, M. Arvanitidis, F. Draicchio, D. Falla. Bipolar versus high-density surface electromyography for evaluating risk in fatiguing frequency-dependent lifting activities. Applied Ergonomics, 95: 103456, 2021
T. Varrecchia, C. De Marchis, F. Draicchio, M. Schmid, S. Conforto, A. Ranavolo. Lifting activity assessment using kinematic features and neural networks. Applied Sciences, 10(6): 1989, 2020
T. Varrecchia, C. De Marchis, M. Rinaldi, F. Draicchio, M. Serrao, M. Schmid, S. Conforto, A. Ranavolo. Lifting activity assessment using surface electromyographic features and neural networks. International Journal of Industrial Ergonomics, 66: 1-9, 2018
A. Ranavolo, T. Varrecchia, M. Rinaldi, A. Silvetti, M. Serrao, S. Conforto, F. Draicchio. Mechanical lifting energy consumption in work activities designed by means of the "revised NIOSH lifting equation". Industrial Health, 55(5): 444-454, 2017
Short and Extended Abstracts appeared on International Journals
S. Ranaldi, D. Bibbo, G. Corvini, M. Schmid, A. De Nobile, S. Conforto. Position-specific muscle coactivation in human-robot collaboration. Gait & Posture, Supplement: S37-S38, 2023
G. Corvini, A. Ajoudani, S. Conforto, S. Ranaldi, M. Schmid, A. De Nobile, D. Bibbo. Assessing biomechanical risks in human-robot collaboration: Analysis of muscle activity with different intervention conditions. Gait & Posture, Supplement: S18-S19, 2023