一种监督控制器,旨在通过可穿戴冷气体推进器阻止动态坠落

IF 3.4 Q2 ENGINEERING, BIOMEDICAL Wearable technologies Pub Date : 2023-09-06 eCollection Date: 2023-01-01 DOI:10.1017/wtc.2023.18
Almaskhan Baimyshev, Michael Finn-Henry, Michael Goldfarb
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引用次数: 0

摘要

摘要:本文探讨了采用冷气推力器(CGT)的可行性,该装置旨在作为背包可穿戴设备,用于阻止向后坠落,并特别描述了一个监督控制器,对于由质心角和角速度的任意组合描述的某些运动,该控制器既检测到即将发生的坠落,又确定何时启动CGT中的推力以阻止即将发生的坠落。描述了CGT原型和监控控制器,并使用一个旨在近似向后摔倒的人的摇块装置进行了实验评估。在这些实验中,CGT和监督控制器在所有实验情况下都恢复了摇晃块的直立稳定性,否则如果没有CGT的帮助就会导致坠落。由于控制器和实验采用了人类坠落的降阶模型,作者还进行了一系列模拟,旨在检查控制器在多段人类的情况下可能保持有效的程度。这些模拟结果表明,CGT控制器对多段人体下降的效果几乎与降阶模型一样有效。
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A supervisory controller intended to arrest dynamic falls with a wearable cold-gas thruster.

This article examines the feasibility of employing a cold-gas thruster (CGT), intended as a backpack-wearable device, for purposes of arresting backward falls, and in particular describes a supervisory controller that, for some motion described by an arbitrary combination of center-of-mass angle and angular velocity, both detects an impending fall and determines when to initiate thrust in the CGT in order to arrest the impending fall. The CGT prototype and the supervisory controller are described and experimentally assessed using a rocking block apparatus intended to approximate a backward-falling human. In these experiments, the CGT and supervisory controller restored upright stability to the rocking block in all experiment cases that would have otherwise resulted in a fall without the CGT assistance. Since the controller and experiments employ a reduced-order model of a falling human, the authors also conducted a series of simulations intended to examine the extent to which the controller might remain effective in the case of a multi-segment human. The results of these simulations suggest that the CGT controller would be nearly as effective on a multi-segment falling human as on the reduced-order model.

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来源期刊
CiteScore
5.80
自引率
0.00%
发文量
0
审稿时长
11 weeks
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