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相关概念视频

Hierarchy of Motor Control01:18

Hierarchy of Motor Control

2.6K
The hierarchy of motor control refers to the different levels of organization and processing involved in controlling movement in the body. These levels range from higher cortical areas involved in planning and decision-making to lower spinal cord reflexes that respond automatically to external stimuli.
2.6K
Muscles that Move the Leg01:23

Muscles that Move the Leg

1.6K
The movement of the legs is facilitated by numerous muscles located within the anterior, medial, and posterior compartments of the thigh.
Anterior Compartment
The quadriceps femoris, the most visible muscle of the anterior compartment, is integral for leg extension and thigh flexion. It is formed by merging four distinct muscles — the vastus lateralis, vastus medialis, vastus intermedius, and rectus femoris. The quadriceps tendon, a shared tendon of the four quadriceps muscles, is affixed...
1.6K
Muscle Coordination and Action01:24

Muscle Coordination and Action

1.4K
Muscle coordination is a complex and finely tuned process essential for smooth and purposeful movements like flexion, extension, adduction, abduction, and rotation. The human body orchestrates the actions of various muscles working in concert, each with a specific role. Four functional types describe how muscles work together: agonist, antagonist, synergist, and fixator.
Agonists
Agonist muscles, often called prime movers, are the primary muscles responsible for producing a specific movement....
1.4K
Major Somatic Sensory Pathways01:28

Major Somatic Sensory Pathways

939
Sensory impulses related to touch, pressure, vibration, and proprioception from various body parts, such as the limbs, trunk, neck, and posterior head, travel to the cerebral cortex through the posterior column-medial lemniscus pathway. The pathway’s name derives from the two white-matter tracts that convey the impulses: the spinal cord's posterior column and the brainstem's medial lemniscus. First-order sensory neurons extend their axons into the spinal cord, forming the...
939

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相关实验视频

Updated: Jun 21, 2025

Engineering Platform and Experimental Protocol for Design and Evaluation of a Neurally-controlled Powered Transfemoral Prosthesis
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Engineering Platform and Experimental Protocol for Design and Evaluation of a Neurally-controlled Powered Transfemoral Prosthesis

Published on: July 22, 2014

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直观和多功能的生物腿:对意志控制的视角

Matthias Voß1, Anne D Koelewijn1, Philipp Beckerle1,2

  • 1Chair of Autonomous Systems and Mechatronics, Department Electrical Engineering, Friedrich-Alexander-Universität Erlangen-Nürnberg, Erlangen, Germany.

Frontiers in neurorobotics
|July 8, 2024
PubMed
概括
此摘要是机器生成的。

未来的活跃下肢假肢需要多功能控制架构来实现完全的意志控制. 将运动控制信号与模拟反和在线优化相结合,可以增强假肢用户的日常使用.

关键词:
仿生腿 仿生腿是一种生物腿.电动肌谱学 电动肌谱学人在循环中的优化优化下肢假肢是指下肢的假肢.自愿控制是自愿的控制.

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Characterization of the Sense of Agency over the Actions of Neural-machine Interface-operated Prostheses
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Characterization of the Sense of Agency over the Actions of Neural-machine Interface-operated Prostheses

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Real-Time Proxy-Control of Re-Parameterized Peripheral Signals using a Close-Loop Interface
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Real-Time Proxy-Control of Re-Parameterized Peripheral Signals using a Close-Loop Interface

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相关实验视频

Last Updated: Jun 21, 2025

Engineering Platform and Experimental Protocol for Design and Evaluation of a Neurally-controlled Powered Transfemoral Prosthesis
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Engineering Platform and Experimental Protocol for Design and Evaluation of a Neurally-controlled Powered Transfemoral Prosthesis

Published on: July 22, 2014

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Characterization of the Sense of Agency over the Actions of Neural-machine Interface-operated Prostheses
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Characterization of the Sense of Agency over the Actions of Neural-machine Interface-operated Prostheses

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Real-Time Proxy-Control of Re-Parameterized Peripheral Signals using a Close-Loop Interface
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Real-Time Proxy-Control of Re-Parameterized Peripheral Signals using a Close-Loop Interface

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科学领域:

  • 生物医学工程 生物医学工程
  • 康复机器人 康复机器人
  • 神经修复品是一种神经修复品.

背景情况:

  • 活动下肢假肢在能量,平衡和多功能性方面比被动设备具有显著的优势.
  • 控制仍然是一个主要的挑战,现有不同的方法.
  • 假肢使用者每天都面临着独特的挑战,这些挑战会影响设备的可用性.

研究的目的:

  • 为活跃下肢假肢提出未来的控制方法.
  • 通过改进的控制来增强假肢用户的日常生活.
  • 为实现先进的假肢控制提供研究路线图.

主要方法:

  • 审查有关下肢假肢用户需求和控制策略的现有文献.
  • 根据用户自愿输入对当前控制方法进行分类.
  • 建议新的控制方法组合,包括前电机控制和模拟反循环.
  • 整合在线优化以实现系统参数个性化.

主要成果:

  • 识别了普遍,日常使用当前控制方法的局限性.
  • 为多功能控制架构提出了一个框架,使完全的意志控制成为可能.
  • 突出了将前和反控制与自适应优化相结合的潜力.

结论:

  • 多功能控制架构对于活跃的下肢假肢至关重要.
  • 结合先进的控制技术和用户自发的输入,可以显著改善用户体验.
  • 结合既有和新方法的研究路线图对于未来的假肢控制发展至关重要.