Mechanics of Solids (about journal) Mechanics of Solids
A Journal of Russian Academy of Sciences
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IssuesArchive of Issues2021-6pp.947-959

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Borisov A.V., Rozenblat G.M., Konchina L.V., Kulikova M.G., and Maslova K.S., "3D Models of Controllable Hinged Mechanisms with Links of Variable Length for Human Exoskeletons," Mech. Solids. 56 (6), 947-959 (2021)
Year 2021 Volume 56 Number 6 Pages 947-959
DOI 10.3103/S0025654421060030
Title 3D Models of Controllable Hinged Mechanisms with Links of Variable Length for Human Exoskeletons
Author(s) Borisov A.V. (Smolensk Branch, Moscow Power Engineering Institute, Smolensk, 214013 Russia, BorisowAndrej@yandex.ru)
Rozenblat G.M. (Moscow Automobile and Road Construction State Technical University (MADI), Moscow, 125319 Russia, gr51@mail.ru)
Konchina L.V. (Smolensk Branch, Moscow Power Engineering Institute, Smolensk, 214013 Russia, la_kon@mail.ru)
Kulikova M.G. (Smolensk Branch, Moscow Power Engineering Institute, Smolensk, 214013 Russia, kulikova0808@rambler.ru)
Maslova K.S. (Smolensk Branch, Moscow Power Engineering Institute, Smolensk, 214013 Russia, maslowaksusha1@yandex.ru)
Abstract A spatial (3D) model of an exoskeleton with links of variable length is considered. The construction of a multi-link model is based on the analysis of a one-link model of with one fixed point in space and a two-link model of variable length. In connection with the difficulties arising in the construction of systems of differential equations of motion with a relatively large number of links that are associated with a long compilation time even when using modern computational systems and algorithms, a generalization for the mechanism for the case of an arbitrary finite number of links is considered and a high-speed method for constructing systems of differential equations of motion for the considered models of mechanisms is given. A five-link 3D model of an exoskeleton with of variable length that can be used to create a working exoskeleton or an anthropomorphic robot is presented. We propose a model with two solid weighty sections located at both ends of the link and a weightless section between them in the center of the link. Analytically synthesized trajectories of movement are obtained and the results of numerical simulation of the movement of a man-machine system in the form of a man in an exoskeleton are presented. Application of the proposed model allows one to reduce the load on the joints, increase strength, comfort and time of continuous use of the exoskeleton.
Keywords man-machine system, link of variable length, hinge, arbitrary number of links, exoskeleton, system of differential equations of motion, control, animation visualization of motion
Received 13 November 2020Revised 11 January 2021Accepted 11 January 2021
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