Applied Sciences (Nov 2023)

Multicriteria Optimization of Lower Limb Exoskeleton Mechanism

  • Sayat Ibrayev,
  • Arman Ibrayeva,
  • Ayaulym Rakhmatulina,
  • Aizhan Ibrayeva,
  • Bekzat Amanov,
  • Nurbibi Imanbayeva

DOI
https://doi.org/10.3390/app132312781
Journal volume & issue
Vol. 13, no. 23
p. 12781

Abstract

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Typical leg exoskeletons employ open-loop kinematic chains with motors placed directly on movable joints; while this design offers flexibility, it leads to increased costs and heightened control complexity due to the high number of degrees of freedom. The use of heavy servo-motors to handle torque in active joints results in complex and bulky designs, as highlighted in the existing literature. In this analytical study, we introduced a novel synthesis method with analytical solutions provided for synthesizing the lower-limb exoskeleton. Furthermore, we proposed a mathematical model of multicriteria optimization; as a result, we obtained several lower-limb exoskeleton mechanisms comprising only six links, well-suited to the human anatomical structure, exhibit superior trajectory accuracy, efficient force transmission, satisfactory step height, and having internal transfer segment of the foot.

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