Results 201 to 210 of about 11,116 (250)
Wearable Robots for Rehabilitation and Assistance of Gait: A Narrative Review. [PDF]
Ann Rehabil MedCha JM, Hong J, Yoo J, Rha DW.
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Biomechanical and physiological effects of passive upper limb exoskeletons in simulated manufacturing tasks. [PDF]
Wearable TechnolScotto di Luzio F +6 more
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Biomechanical analysis of different lifting speeds when using an active exoskeleton. [PDF]
Front Bioeng BiotechnolMayer D +3 more
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Sedimentary evidence of invasive cladoceran <i>Bosmina (Eubosmina) coregoni</i> presence on the Pacific coast of North America over four decades before first detection. [PDF]
J Plankton ResArmstrong I, Laird KR, Cumming BF.
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Journal of Manufacturing Technology Management, 2019
Purpose Exoskeletons are mechanical structures that humans can wear to increase their strength and endurance. The purpose of this paper is to explain how exoskeletons can be used to improve performance across five phases of manufacturing. Design/methodology/approach Multivocal literature review, encompassing scientific literature and the grey ...
Fox, Stephen +3 more
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Purpose Exoskeletons are mechanical structures that humans can wear to increase their strength and endurance. The purpose of this paper is to explain how exoskeletons can be used to improve performance across five phases of manufacturing. Design/methodology/approach Multivocal literature review, encompassing scientific literature and the grey ...
Fox, Stephen +3 more
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Communications of the ACM, 2019
Wearable mobile machines integrate people and machines to assist the movement-impaired, and amplify the capabilities of industrial and defense workers while protecting them from injury.
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Wearable mobile machines integrate people and machines to assist the movement-impaired, and amplify the capabilities of industrial and defense workers while protecting them from injury.
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New England Journal of Medicine, 2007
Chitin — the second-most abundant biologic polymer, after cellulose — is a tough, cross-linked polysaccharide (see Figure 1) found in the exoskeleton of insects and crustaceans, the cell wall of fungi, and the pharynx, microfilarial sheath, and egg of parasitic worms (helminths).
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Chitin — the second-most abundant biologic polymer, after cellulose — is a tough, cross-linked polysaccharide (see Figure 1) found in the exoskeleton of insects and crustaceans, the cell wall of fungi, and the pharynx, microfilarial sheath, and egg of parasitic worms (helminths).
openaire +2 more sources