2015
DOI: 10.1016/j.robot.2014.11.014
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An adaptive control strategy for postural stability using a wearable robot

Abstract: Wearable robots are expected to expand the use of robotics in rehabilitation since they can widen the assistance application context. An important aspect of a rehabilitation therapy, in terms of lower extremity assistance, is balance control. In this article, we propose and evaluate an adaptive control strategy for robotic rehabilitation therapies to guarantee static stability using a wearable robot. Postural balance control can be implemented either acting on the hip, on the ankle joint or on both, depending … Show more

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Cited by 61 publications
(28 citation statements)
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“…A detailed description about the exoskeleton structure and communication parameters is detailed in [14]. The variable stiffness control ensures a safe therapeutic experience [1,12]. The exoskeleton permits a stiffness value within the range of 1-100 Nm/deg.…”
Section: Exoskeleton H1mentioning
confidence: 99%
See 1 more Smart Citation
“…A detailed description about the exoskeleton structure and communication parameters is detailed in [14]. The variable stiffness control ensures a safe therapeutic experience [1,12]. The exoskeleton permits a stiffness value within the range of 1-100 Nm/deg.…”
Section: Exoskeleton H1mentioning
confidence: 99%
“…Most rehabilitation robotic devices mainly focus on providing the gait assistance which is related to maintaining the center of mass (COM) while performing a dynamic task. However, there are some prerequisite movements or capabilities which are needed before progressing towards the gait, such as balance stability [1], sit-tostand [2].…”
Section: Introductionmentioning
confidence: 99%
“…A low stiffness value (<10N/m) will not cause any significant effect on the user's behavior. Similarly a high stiffness value (> 80N/m) will provide a completely assisted movement, with few or no input from the user [11]. The initial stiffness value must be defined taking into account the user's capability and the degree of assistance to be applied by the orthosis.…”
Section: A Exoskeletonmentioning
confidence: 99%
“…A detailed description about the exoskeleton structure and communication parameters is detailed in [13]. The variable stiffness control ensures a safe therapeutic experience [14,15]. The exoskeleton permits a stiffness value within the range of 1-100 N/m.…”
Section: Exoskeletonmentioning
confidence: 99%