Xilun Ding scite author profile

Lower limb rehabilitation exoskeleton robots integrate sensing, control, and other technologies and exhibit the characteristics of bionics, robotics, information and control science, medicine, and other interdisciplinary areas. In this review, the typical products and prototypes of lower limb exoskeleton rehabilitation robots are introduced and stateof-the-art techniques are analyzed and summarized. Because the goal of rehabilitation training is to recover patients' sporting ability to the normal level, studying the human gait is the foundation of lower limb exoskeleton rehabilitation robot research. Therefore, this review critically evaluates research progress in human gait analysis and systematically summarizes developments in the mechanical design and control of lower limb rehabilitation exoskeleton robots. From the performance of typical prototypes, it can be deduced that these robots can be connected to human limbs as wearable forms; further, it is possible to control robot movement at each joint to simulate normal gait and drive the patient's limb to realize robot-assisted rehabilitation training. Therefore human-robot integration is one of the most important research directions, and in this context, rigid-flexible-soft hybrid structure design, customized personalized gait generation, and multimodal information fusion are three key technologies.

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β-decay of the neutron-rich nucleusN18

Li¹,

Ye²,

Hua³

et al. 2005

Phys. Rev. C

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Xilun Ding

Convergence of the Lax–friedrichs Scheme for Isentropic Gas Dynamics (Iii)

Convergence of the Lax-Friedrichs Scheme for Isentropic Gas Dynamics (Ii)

A Review on Lower Limb Rehabilitation Exoskeleton Robots

β-decay of the neutron-rich nucleusN18

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