The following publications are possibly variants of this publication:
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- Physiological Effects of a Back-Support Exoskeleton Control to Assist Carrying ActivitiesMaria Lazzaroni, Christian Di Natali, Darwin G. Caldwell, Jesús Ortiz. robio 2023: 1-6 [doi]
- Assessment of an On-board Classifier for Activity Recognition on an Active Back-Support ExoskeletonTommaso Poliero, Stefano Toxiri, Sara Anastasi, Luigi Monica, Darwin G. Caldwell, Jesús Ortiz. icorr 2019: 559-564 [doi]
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- An active back-support exoskeleton to reduce spinal loads: actuation and control strategiesStefano Toxiri. PhD thesis, University of Genoa, Italy, 2018. [doi]
- Active and Passive Back-Support Exoskeletons: a Comparison in Static and Dynamic TasksTommaso Poliero, Vasco Fanti, Matteo Sposito, Darwin G. Caldwell, Christian Di Natali. biorob 2022: 1-8 [doi]
- Rationale, Implementation and Evaluation of Assistive Strategies for an Active Back-Support ExoskeletonStefano Toxiri, Axel S. Koopman, Maria Lazzaroni, Jesús Ortiz, Valerie Power, Michiel de Looze, Leonard O'Sullivan, Darwin G. Caldwell. firai, 2018:53, 2018. [doi]
- Active and Passive Back-Support Exoskeletons: A Comparison in Static and Dynamic TasksTommaso Poliero, Vasco Fanti, Matteo Sposito, Darwin G. Caldwell, Christian Di Natali. ral, 7(3):8463-8470, 2022. [doi]