Finite Time Robust Control of the Sit-to-Stand Movement for Powered Lower Limb Orthoses

机译：动力下肢矫形器坐姿运动的有限时间鲁棒控制

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This study presents a technique to safely control the Sit-to-Stand movement of powered lower limb orthoses in the presence of parameter uncertainty. The weight matrices used to calculate the finite time horizon linear-quadratic regulator (LQR) gain in the feedback loop are chosen from a pool of candidates as to minimize a robust performance metric involving induced gains that measure the deviation of variables of interest in a linear time-varying (LTV) system, at specific times within a finite horizon, caused by a perturbation signal modeling the variation of the parameters. Two relevant Sit-to-Stand movements are simulated for drawing comparisons with the results documented in a previous work.

机译：这项研究提出了一种在存在参数不确定性的情况下安全控制电动下肢矫形器的坐姿运动的技术。从候选池中选择用于计算反馈回路中的有限时间范围线性二次调节器（LQR）增益的权重矩阵，以最大程度地减少涉及感应增益的鲁棒性能指标，该指标测量线性变量中感兴趣变量的偏差时变（LTV）系统，在有限范围内的特定时间，是由对参数变化建模的扰动信号引起的。模拟了两个相关的站起来运动，以进行绘图比较，并与先前工作中记录的结果进行比较。

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来源
《2018 Annual American Control Conference》|2018年|2721-2726|共6页
会议地点 Milwaukee(US)
作者
Octavio Narvaez-Arocho; Andrew Packard; Murat Arcak;
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作者单位

Department of Mechanical Engineering, University of California, Berkeley Center for Control and Identification, Berkeley;

Department of Mechanical Engineering, University of California, Berkeley Center for Control and Identification, Berkeley;

University of California, Department of Electrical Engineering and Computer Sciences, Berkeley, CA, 94720;

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会议组织
原文格式 PDF
正文语种 eng
中图分类
关键词
Robustness; Trajectory; Measurement; Kinematics; Computational modeling; Robots; Mathematical model;

机译：鲁棒性;轨迹;测量;运动学;计算模型;机器人;数学模型;;

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专利

1. Robust Control of the Sit-to-Stand Movement for a Powered Lower Limb Orthosis [J] . Narvaez Aroche Octavio, Meyer Pierre-Jean, Tu Stephen, IEEE Transactions on Control Systems Technology . 2020,第6期

机译：对动力下肢矫形器的静止运动的鲁棒控制
2. Ground Reaction Force in Sit-to-stand Movement Reflects Lower Limb Muscle Strength and Power in Community-dwelling Older Adults [J] . Taishi Tsuji, Kenji Tsunoda, Yasuhiro Mitsuishi, International Journal of Gerontology . 2015,第2期

机译：静坐运动中的地面反作用力反映了居住在社区中的老年人的下肢肌肉力量和力量
3. A Fuzzy Controller for Lower Limb Exoskeletons during Sit-to-Stand and Stand-to-Sit Movement Using Wearable Sensors [J] . Imtiaz Ahmed Choudhury, Norhafizan Ahmad, Raja Ariffin Raja Ghazilla, Sensors . 2014,第3期

机译：使用可穿戴传感器的下肢站立和站立运动时下肢外骨骼的模糊控制器
4. Finite Time Robust Control of the Sit-to-Stand Movement for Powered Lower Limb Orthoses [C] . Octavio Narvaez-Aroche, Andrew Packard American Control Conference . 2018

机译：有限时间稳健控制坐足式运动，用于动力下肢偏好
5. Lower limb bilateral symmetry of sit-to-stand transfer: A biomechanical analysis. [D] . Horne, Andrew David. 2005

机译：下肢双侧坐姿站立对称性：生物力学分析。
6. A Fuzzy Controller for Lower Limb Exoskeletons during Sit-to-Stand and Stand-to-Sit Movement Using Wearable Sensors [O] . Sharif Muhammad Taslim Reza, Norhafizan Ahmad, Imtiaz Ahmed Choudhury, 2014

机译：使用可穿戴式传感器的下肢站立和站立运动时下肢外骨骼的模糊控制器
7. Reachability Analysis for Robustness Evaluation of the Sit-to-Stand Movement for Powered Lower Limb Orthoses [O] . Octavio Narvaez-Aroche, Andrew Packard, Pierre-Jean Meyer, 2018

机译：用于动力下肢静止运动的稳健性评估的可达性分析

Finite Time Robust Control of the Sit-to-Stand Movement for Powered Lower Limb Orthoses

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