Journal
IEEE-ASME TRANSACTIONS ON MECHATRONICS
Volume -, Issue -, Pages -Publisher
IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TMECH.2023.3273717
Keywords
Dynamic model; fuzzy tuning; hip exoskeleton; lateral resistance walk exercise; muscle activity
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In this article, a novel hip exoskeleton was proposed to strengthen hip adductors during lateral walking by applying active resistance torque. A dynamic model of the transmission system coupling the exoskeleton and human body was established and a fuzzy tuning PID control strategy was used to control the resistance torque. Experimental results showed that the proposed hip exoskeleton significantly improved muscle activities of the hip adductors compared to traditional methods. The findings suggest that the hip exoskeleton has the potential to enhance lateral resistance walk exercise and strengthen hip abductors.
Lateral resistance walk exercise (LRWE) is a popular method for fitness and rehabilitation training. However, current methods such as lateral band walks (LBW) cannot actively control the resistance training intensity. In this article, we proposed a novel hip exoskeleton, which can strengthen hip adductors by applying active resistance torque during lateral walking. The spatial linkage mechanism of the hip exoskeleton was designed and a prototype was fabricated. The dynamic model of transmission system coupling exoskeleton and human body was established. The proportional-integral-differential (PID) control strategy based on fuzzy tuning was presented to control the resistance torque. Physical prototype experiments showed that the fuzzy tuning PID control strategy could significantly improve the torque tracking accuracy compared to the traditional PID control strategy. The muscle activities of No-exo, Exo-off, LBW, and Exo-on (10 Nm, 15 Nm, 20 Nm) conditions were evaluated on ten healthy male subjects walking laterally at a speed of one step per second. The muscle activities of gluteus medius increased by 51.4%, 413.5%, 591.9%, 721.6%, and 918.9% under Exo-off, LBW, and Exo-on (10 Nm, 15 Nm, 20 Nm) conditions, respectively. The corresponding increments for tensor fasciae latae were 52.6%, 1136.8%, 1626.3%, 1994.7%, and 2331.6%, respectively. The results demonstrate that the proposed hip exoskeleton can apply to LRWE and improve muscle activities of hip adductors. It will upgrade the exercise method of LRWE and has good potential in strengthening hip abductors.
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