辅助外骨骼控制与用户调谐多目标优化

K. Stewart, C. Diduch, J. Sensinger
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引用次数: 1

摘要

利用轨迹跟踪控制的辅助外骨骼已被证明可以为用户产生稳定的步态。然而,这些不允许直观的调整来定制用户的喜好步态。当人们独自行走时,他们需要平衡各种需求,如速度、舒适度和能量。通过在不同的步态性能测量之间进行优化,为用户提供了直观的灵活性。通过在虚拟约束框架下的仿真,证明了自然步行和步态能量之间的优化可以产生稳定的双足步态。这一验证表明了改进辅助外骨骼调谐和定制的方法和框架的有效性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Assistive Exoskeleton Control with User-Tuned Multi-Objective Optimization
Assistive exoskeletons that utilize trajectory following control have been shown to produce stable gait for users. These however, do not allow intuitive tuning to customize gait to users’ preferences. When persons walk on their own, they balance a variety of needs such as speed, comfort, and energy. Providing user tuning by optimizing between different gait performance measures gives an intuitive flexibility. We have shown the optimization between natural walking and gait energy produces stable bipedal gait through simulation in a virtual constraint framework. This verification shows validity of the methodology and framework for improving tuning and customization of assistive exoskeletons.
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