Fashu Xu, Xichuan Lin, Hong Cheng, Rui Huang, Qiming Chen
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引用次数: 12
摘要
通过动力下外骨骼辅助改善脊髓损伤患者的日常生活活动能力,提高患者的生活质量是切实可行的,具有重要意义。作为典型日常活动的一部分,不同大小的楼梯应该是外骨骼的使用场景,旨在扩大患者的活动范围。本文提出了基于动力式下肢外骨骼AIDER的国标内不同尺寸的自动上下楼梯策略。所开发的策略采用红外距离传感器、足部压力传感器和角度编码器来识别基于运动学计算的楼梯大小。此外,本文还提出了一种名为“Stick From the Origin”的方法,目的是在爬楼梯过程中更准确地识别楼梯。利用基于足部压力的零力矩点(ZMP)稳定准则来确保整个过程的安全。实验证明了该策略的实用性和普适性,AIDER可以帮助具有不同生理特征的患者完成爬楼梯任务。
Adaptive stair-ascending and stair-descending strategies for powered lower limb exoskeleton
Enhancing the life quality for patients with spinal cord injuries (SCIs) by means of improving their mobility in daily life assisted by powered lower exoskeletons is practicable and significant. Being a part of typical daily activities, stairs with different sizes are supposed to be a usage scenario of exoskeletons aiming for extending patients' sphere of activities. This paper proposes strategies for automatically ascending/descending stairs with different sizes within the national standard based on the powered lower limb exoskeleton AIDER. The developed strategies employ infrared range sensors, foot pressure sensors and angle encoders to identify stairs whose sizes are computed based on kinematics. In addition, a methodology named “Stick From the Origin” aiming at recognizing stairs more accurately is proposed during the stair-ascending process. The Zero Moment Point (ZMP) stability criterion based on the foot pressures is utilized to ensure safety in the entire process. Experiments have been undertaken to testify the practicability and universality of the proposed strategies, by applying which AIDER can assist patients with various physiological characters to accomplish stair-climbing tasks.
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