Method and tool for assessing the residual life of the planetary electric actuator of the exoskelet
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Yu F Kaizer | K. E. Kozlov | A V Egorov | Vladimir Belogusev | A V Lysyannikov | N N Lysyannikova | V L Tyukanov | A V Kuznetsov | A. Lysyannikov | A. Egorov | Y. Kaizer | A. Kuznetsov | N. Lysyannikova | V. Tyukanov | K. Kozlov | V. Belogusev
[1] Tim Bosch,et al. Evaluation of a passive exoskeleton for static upper limb activities. , 2018, Applied ergonomics.
[2] M. de Looze,et al. Assessment of an active industrial exoskeleton to aid dynamic lifting and lowering manual handling tasks. , 2018, Applied Ergonomics.
[3] Ashish Singla,et al. Optimization of stepped-cone CVT for lower-limb exoskeletons , 2016 .
[4] Bing Chen,et al. Recent developments and challenges of lower extremity exoskeletons , 2015, Journal of orthopaedic translation.
[5] K. E. Kozlov,et al. Experimental Identification of Bearing Mechanical Losses with the Use of Additional Inertia , 2016 .
[6] M. Sreekumar,et al. Design of a Wearable Lower Body Exoskeleton Mechanism for Shipbuilding Industry , 2018 .
[7] Leonard O'Sullivan,et al. Elongation of the surface of the spine during lifting and lowering, and implications for design of an upper body industrial exoskeleton. , 2018, Applied ergonomics.
[8] Bing Chen,et al. A wearable exoskeleton suit for motion assistance to paralysed patients , 2017, Journal of orthopaedic translation.