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Disambiguation of "Toxiri, Stefano"

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Exoshoe: A sensory system to measure foot pressure in industrial exoskeleton.

, , , , , and . BioRob, page 99-105. IEEE, (2016)

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Stefano Meini

Stefano Cracolici

Stefano Cardanobile

Stefano Carignano

Giovanni Stefano

 

Other publications of authors with the same name

Applicability of an Active Back-Support Exoskeleton to Carrying Activities., , , , , and . Frontiers Robotics AI, (2020)Exoshoe: A sensory system to measure foot pressure in industrial exoskeleton., , , , , and . BioRob, page 99-105. IEEE, (2016)A wearable device for reducing spinal loads during lifting tasks: Biomechanics and design concepts., , , , , and . ROBIO, page 2295-2300. IEEE, (2015)An active back-support exoskeleton to reduce spinal loads: actuation and control strategies.. University of Genoa, Italy, (2018)base-search.net (ftunivgenova:oai:iris.unige.it:11567/930175).A case study on occupational back-support exoskeletons versatility in lifting and carrying., , , , , , , , , and 1 other author(s). PETRA, page 210-217. ACM, (2021)Acceleration-based Assistive Strategy to Control a Back-support Exoskeleton for Load Handling: Preliminary Evaluation., , , , , , and . ICORR, page 625-630. IEEE, (2019)Assistive Strategies for a Back Support Exoskeleton: Experimental Evaluation., , and . RAAD, volume 49 of Mechanisms and Machine Science, page 805-812. Springer, (2017)Optimizing Calibration Procedure to Train a Regression-Based Prediction Model of Actively Generated Lumbar Muscle Moments for Exoskeleton Control., , , , , , , , and . Sensors, 22 (1): 87 (2022)Rationale, Implementation and Evaluation of Assistive Strategies for an Active Back-Support Exoskeleton., , , , , , , and . Frontiers Robotics AI, (2018)A Parallel-Elastic Actuator for a Torque-Controlled Back-Support Exoskeleton., , , , and . IEEE Robotics Autom. Lett., 3 (1): 492-499 (2018)