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Motivated by this need, this paper presents the design of a compatible lower limb exoskeleton with variable stiffness actuation and anthropomorphic joint mechanisms, for walking assistance and gait rehabilitation. A novel variable stiffness actuator (VSA) based on a guide-bar mechanism was designed, to provide force and impedance controllability. By changing the crank length of the mechanism, the stiffness of the actuator is adjusted in a wide range (from 0 to 1301 Nm\/rad), at fast speed (about 2582 Nm\/rad\/s), and with low-energy cost. These features make it possible for online stiffness adjustment during one gait cycle, to change the human\u2013robot coupling behavior and improve the performance of the exoskeleton. An anthropomorphic hip joint mechanism was designed based on a parallelogram linkage and a passive joint compensation approach, which absorbs misalignment and improves kinematic compatibility between the human and the exoskeleton joint. Furthermore, a torque control-based multimode control strategy, which consists of passive mode, active mode, and hybrid mode, was developed for different disease stages. Finally, the torque control performance of the actuator was verified by benchtop test, and experimental validations of the exoskeleton with a human subject were carried out, which demonstrate that compliant human\u2013robot interaction was achieved, and stiffness variation benefits for control performance improvement when the control mode changes.<\/jats:p>","DOI":"10.1017\/s0263574725000451","type":"journal-article","created":{"date-parts":[[2025,4,10]],"date-time":"2025-04-10T04:05:56Z","timestamp":1744257956000},"page":"1675-1690","source":"Crossref","is-referenced-by-count":5,"title":["Design and preliminary validation of a compatible lower limb exoskeleton with variable stiffness 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