Leveraging Gait Dynamics to Improve Efficiency and Performance of Powered Hip Exoskeletons

机译：利用步态动态提高动力髋关节外骨骼的效率和性能

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This paper presents a new mechanical design for efficient exoskeleton actuation to power the sagittal plane motion in the human hip. The device uses a DC motor to drive a Scotch-Yoke mechanism and series elasticity to take advantage of the cyclic nature of human gait and to reduce power and control requirements of the exoskeleton. The mechanism creates a transmission that varies between 4:1 and infinity and does not require the motor to reverse direction when the hip joint reverses direction. This paper provides a detailed analysis of how the dynamic nature of human walking can be leveraged with this hip exoskeleton design.

机译：本文介绍了一种新的机械设计，可用于高效的外骨骼致动，以便在人髋部中的矢状平面动力。该装置使用直流电动机驱动苏格兰轭机构和串联弹性，以利用人体步态的循环性质，并降低外骨骼的功率和控制要求。该机构产生的传输在4：1和无穷大之间变化，并且当髋关节反转方向时不需要电动机反向。本文详细分析了人行道的动态性质如何利用这种髋关节外骨骼设计来利用。

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《IEEE International Conference on Rehabilitation Robotics》|2013年||共6页
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作者
Matthew C. Ryder; Frank Sup;
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原文格式 PDF
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中图分类 TP24-53;
关键词
exoskeleton; Scotch-Yoke; gait dynamics; sagittal plane; human hip; robotics;

机译：外骨骼;苏格兰轭;步态动态;矢状平面;人髋;机器人学;

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1. Gait training using a robotic hip exoskeleton improves metabolic gait efficiency in the elderly [J] . Elena Martini, Simona Crea, Andrea Parri, Scientific reports. . 2019,第1期

机译：使用机器人髋关节外骨骼进行步态训练可改善老年人的代谢步态效率
2. A Battery-Powered Ankle Exoskeleton Improves Gait Mechanics in a Feasibility Study of Individuals with Cerebral Palsy [J] . Lerner Zachary F., Harvey Taryn A., Lawson Jennifer L. Annals of Biomedical Engineering: The Journal of the Biomedical Engineering Society . 2019,第6期

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3. Development of gait performance and dynamic hip and knee joint loading after containment improving surgery in patients with Legg-Calve-Perthes disease [J] . Stief Felix, Schmidt Andre, Adolf Stefanie, Gait & posture . 2016,第Null期

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4. Leveraging gait dynamics to improve efficiency and performance of powered hip exoskeletons [C] . Ryder Matthew C., Sup Frank 2013 IEEE 13th International Conference on Rehabilitation Robotics . 2013

机译：利用步态动力学来提高髋关节外骨骼的效率和性能
5. Implementation of novel power combining techniques on solid state power amplifier (SSPA) chip designs to improve efficiency and power performance [D] . Waiyaki, Caroline W. 2012

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6. Gait training using a robotic hip exoskeleton improves metabolic gait efficiency in the elderly [O] . Elena Martini, Simona Crea, Andrea Parri, -1

机译：使用机器人髋关节外骨骼进行步态训练可改善老年人的代谢步态效率
7. Self-Aligning Mechanism Improves Comfort and Performance With a Powered Knee Exoskeleton [O] . Sergei V. Sarkisian, Marshall K. Ishmael, Tommaso Lenzi 2021

机译：自对准机构可以通过动力膝盖外骨骼提高舒适性和性能

Leveraging Gait Dynamics to Improve Efficiency and Performance of Powered Hip Exoskeletons

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