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Nonlinear estimation of gait kinematics during functional electrical stimulation and orthosis-based walking

机译：功能性电刺激和基于矫形器的步行过程中步态运动的非线性估计

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This paper presents a nonlinear estimation algorithm which utilizes a low-degree of freedom model of functional electrical stimulation (FES) and orthosis-based walking to estimate lower-limb angles. The estimated lower limb angles can be used to decide when the FES signal should be applied to the leg during the different phases of walking. To this end, we use measurements from inertial measurement units (IMUs) to estimate the lower limb segment angles. A state-dependent coefficient (SDC)-based nonlinear estimator is developed to estimate the lower limb angles. The nonlinear estimator is robust to uncertainties in the motion modeling and sensor noise/bias from the IMUs. A comparison with extended Kalman (EKF)-like filter shows improved performance of the estimator in simulation studies.

机译：本文提出了一种非线性估计算法，该算法利用功能性电刺激（FES）和基于矫形器的步行的低自由度模型来估计下肢角度。估计的下肢角度可用于确定在步行的不同阶段何时应将FES信号施加到腿上。为此，我们使用来自惯性测量单元（IMU）的测量值来估计下肢节段角度。开发了基于状态相关系数（SDC）的非线性估计器，以估计下肢角度。非线性估计器对于运动建模中的不确定性和来自IMU的传感器噪声/偏置具有鲁棒性。与类似扩展卡尔曼（EKF）的滤波器的比较表明，仿真研究中估计器的性能有所提高。

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《American Control Conference》|2014年|4778-4783|共6页
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Sharma Nitin; Dani Ashwin;
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Estimation; Hip; Joints; Knee; Legged locomotion; Noise measurement; Thigh; Biomedical; Estimation; Filtering;

机译：估计;臀部关节;膝盖;腿运动噪声测量;大腿;生物医学估计;筛选;

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专利

1. INFLUENCE OF FUNCTIONAL ELECTRICAL STIMULATION OF THE HAMSTRINGS ON KNEE KINEMATICS IN STROKE SURVIVORS WALKING WITH STIFF KNEE GAIT [J] . Tenniglo Martin. J. B., Buurke Jaap H., Prinsen Erik C., Journal of rehabilitation medicine : . 2018,第8期

机译：用僵硬膝关节步进施用腿部鼻腔运动刺激对膝关节运动学的影响
2. Quantification of gait kinematics and walking ability of people with multiple sclerosis who are new users of functional electrical stimulation. [J] . Sasha M Scott, Marietta L van der Linden, Julie E Hooper, Journal of rehabilitation medicine : . 2013,第4a9期

机译：量化功能性电刺激新用户的多发性硬化症患者的步态运动学和步行能力。
3. Functional electrical stimulation-assisted walking for persons with incomplete spinal injuries: changes in the kinematics and physiological cost of overground walking. [J] . Ladouceur M, Barbeau H Scandinavian journal of rehabilitation medicine . 2000,第2期

机译：脊髓不完全受伤者的功能性电刺激辅助步行：地面步行的运动学和生理学成本的变化。
4. Nonlinear estimation of gait kinematics during functional electrical stimulation and orthosis-based walking [C] . Sharma Nitin, Dani Ashwin American Control Conference . 2014

机译：功能性电刺激过程中步态运动学的非线性估计与基于矫形矫形器的行走
5. When and what to stimulate? An evaluation of a custom functional electrical stimulation system and its neuroprosthetic effect on gait in children with cerebral palsy. [D] . Zahradka, Nicole. 2016

机译：什么时候刺激什么？定制功能性电刺激系统及其对神经性麻痹儿童步态的神经修复效果的评估。
6. Habitual Functional Electrical Stimulation Therapy Improves Gait Kinematics and Walking Performance but Not Patient-Reported Functional Outcomes of People with Multiple Sclerosis who Present with Foot-Drop [O] . Marietta L. van der Linden, Julie E. Hooper, Paula Cowan, -1

机译：习惯性的功能性电刺激疗法可改善多发性硬化症患者的脚步运动和步态运动性能但不能改善患者报告的功能结局
7. Habitual Functional Electrical Stimulation Therapy Improves Gait Kinematics and Walking Performance, but Not Patient-Reported Functional Outcomes, of People with Multiple Sclerosis who Present with Foot-Drop [O] . van der Linden Marietta, Hooper Julie, Cowan P, 2014

机译：习惯性的功能性电刺激疗法可改善多发性硬化症患者的脚步运动和步态运动性能，但不能改善患者报告的功能结局
8. Recognition of Lower Limb Movements by Artificial Neural Network for Restoring Gait of Hemiplegic Patients by Functional Electrical Stimulation. [R] . Watanabe, T., Yamagishi, S., Murakami, H., 2001

机译：人工神经网络用于功能性电刺激恢复偏瘫患者步态的下肢运动识别。

Nonlinear estimation of gait kinematics during functional electrical stimulation and orthosis-based walking

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