An innovative equivalent kinematic model of the human upper limb to improve the trajectory planning of exoskeleton rehabilitation robots

Abstract: Abstract. Upper limb exoskeleton rehabilitation robots have been attracting significant attention by researchers due to their adaptive training, highly repetitive motion, and ability to enhance the self-care capabilities of patients with disabilities. It is a key problem that the existing upper limb exoskeletons cannot stay in line with the corresponding human arm during exercise. The aim is to evaluate whether the existing upper limb exoskeleton movement is in line with the human movement and to provide a des… Show more

“…The impaired limb of stroke patients in the spastic period has certain muscle strength, but they are unable to complete the rehabilitation training by themself (Kim et al , 2021; Cho and Song, 2021; Xie et al , 2021). To effectively stimulate the central nervous system of patients for motor function reorganization, the patients need to use their own strength to complete the rehabilitation training (Li et al , 2015).…”

Research on fuzzy impedance control of upper-limb rehabilitation robot based on membership functions online optimization learning strategy

“…The impaired limb of stroke patients in the spastic period has certain muscle strength, but they are unable to complete the rehabilitation training by themself (Kim et al , 2021; Cho and Song, 2021; Xie et al , 2021). To effectively stimulate the central nervous system of patients for motor function reorganization, the patients need to use their own strength to complete the rehabilitation training (Li et al , 2015).…”

Research on fuzzy impedance control of upper-limb rehabilitation robot based on membership functions online optimization learning strategy

AI-driven rehabilitation and assistive robotic system with intelligent PID controller based on RBF neural networks

Using Capability Maps Tailored to Arm Range of Motion in VR Exergames for Rehabilitation