2017
DOI: 10.1007/978-3-319-65289-4_29
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Impedance Control of a Pneumatic Muscles-Driven Ankle Rehabilitation Robot

Abstract: Abstract. Pneumatic muscle is a new type of flexible actuator with advantages in terms of light weight, large output power/weight ratio, good security, low price and clean. In this paper, an ankle rehabilitation robot with two degrees of freedom driven by pneumatic muscle is studied. The force control method with an impedance controller in outer loop and a position inner loop is proposed. The demand of rehabilitation torque is ensured through tracking forces of three pneumatic muscle actuators. In the simulati… Show more

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Cited by 6 publications
(3 citation statements)
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“…Due to many advantages of flexibility, inherently compliant, high power-toweight ratio, low cost, ease of maintenance, cleanliness, etc. PAM-based systems are mostly used in manipulators [1,2], rehabilitation robotics [3], medical devices [4], and many others [5,6]. However, the PAM is known for its strong non-linearity and uncertainty, high hysteresis behavior, hence pose a great challenge in achieving good tracking performance.…”
Section: Introductionmentioning
confidence: 99%
“…Due to many advantages of flexibility, inherently compliant, high power-toweight ratio, low cost, ease of maintenance, cleanliness, etc. PAM-based systems are mostly used in manipulators [1,2], rehabilitation robotics [3], medical devices [4], and many others [5,6]. However, the PAM is known for its strong non-linearity and uncertainty, high hysteresis behavior, hence pose a great challenge in achieving good tracking performance.…”
Section: Introductionmentioning
confidence: 99%
“…Since the PAM has many above-mentioned benefits, it has been widely used in many applications [2], such as exoskeletons for rehabilitation [3], robotic orthosis [4], and manipulators [5]. Moreover, the PAM has natural compliance that makes it feasible for biomimetic robotic devices, particularly those intended for interaction with humans [6]- [8]. However, the tracking accuracy of the PAM system is limited owing to the hysteresis behavior, nonlinearity and uncertainty during its working process.…”
Section: Introductionmentioning
confidence: 99%
“…Due to highly nonlinear and time varying characteristics, it is difficult to drive PAM actuators in the precise control. Therefore, Zhang and his colleagues investigate the force control of a pneumatic artificial muscle (PAM) drives ankle rehabilitation robot, incorporating a position control in inner loop and an impedance control in outer loop so as to ensure the accuracy and the satisfactory of the ankle rehabilitation (Zhang et al, 2017 ). Anh and his colleagues develop the novel adaptive neural network (ADNN) compliant force/position control to make a serial PAM robot follow arbitrary linear and circular trajectories.…”
Section: Introductionmentioning
confidence: 99%