Design and control of a robotic lower extremity exoskeleton for gait rehabilitation

机译：步态康复机器人下肢外骨骼的设计与控制

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Design and control of an active knee rehabilitation orthotic system called ANdROS that was designed as a wearable and portable gait rehabilitation tool is presented. A corrective force field that reinforces a desired gait pattern is applied to the patient's impaired leg around the knee joint via an impedance controlled exoskeleton. The impedance controller is synchronized with the patient's walking phase which is estimated from the kinematic measurements of the healthy leg. The performance of the controller is evaluated through bench-testing.

机译：介绍了一种称为ANdROS的主动膝关节康复矫形系统的设计和控制，该系统被设计为可穿戴和便携式步态康复工具。通过阻抗控制的外骨骼，将增强所需步态模式的矫正力场施加到患者膝盖周围膝关节受损的腿上。阻抗控制器与患者的步行阶段同步，该步行阶段是根据健康腿部的运动学测量值估算得出的。控制器的性能通过基准测试进行评估。

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《2011 IEEE/RSJ International Conference on Intelligent Robots and Systems》|2011年|p.4893-4898|共6页
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Unluhisarcikli Ozer; Pietrusinski Maciej; Weinberg Brian; Bonato Paolo; Mavroidis Constantinos;
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2. A Review of Lower Extremity Assistive Robotic Exoskeletons in Rehabilitation Therapy [J] . Gong Chen, Chow Khuen Chan, Zhao Guo, Critical Reviews in Biomedical Engineering . 2013,第4a5期

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4. Design and control of a robotic lower extremity exoskeleton for gait rehabilitation [C] . Unluhisarcikli Ozer, Pietrusinski Maciej, Weinberg Brian, IEEE/RSJ International Conference on Intelligent Robots and Systems . 2011

机译：机器人下肢外骨骼进行步态康复的设计与控制
5. Comparison of robotic-virtual reality lower extremity training with robotic lower extremity training alone for rehabilitation of gait of individuals post-stroke. [D] . Mirelman, Anat. 2007

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7. Development of a Rehabilitation Robot Combined with Functional Electrical Stimulation Controlled by Non-disabled Lower Extremity in Hemiplegic Gait [O] . Ryota Kimura, Toshiki Matsunaga, Takehiro Iwami, 2018

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Design and control of a robotic lower extremity exoskeleton for gait rehabilitation

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