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相关概念视频

Feedback control systems01:26

Feedback control systems

304
Feedback control systems are categorized in various ways based on their design, analysis, and signal types.
Linear feedback systems are theoretical models that simplify analysis and design. These systems operate under the principle that their output is directly proportional to their input within certain ranges. For instance, an amplifier in a control system behaves linearly as long as the input signal remains within a specific range. However, most physical systems exhibit inherent nonlinearity...
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Phase-lead and Phase-lag Controllers01:22

Phase-lead and Phase-lag Controllers

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Understanding the working function of different types of controllers can be illustrated with practical analogies, such as adjusting a stereo's volume equalizer. Cranking up the bass involves a phase-lead controller, which functions as a high-pass filter, while increasing the treble uses a phase-lag controller, which acts as a low-pass filter. PD controllers, similar to high-pass filters, enhance the system's response to high-frequency components. PI controllers, akin to low-pass...
167
Open and closed-loop control systems01:17

Open and closed-loop control systems

717
Control systems are foundational elements in automation and engineering. They are broadly categorized into open-loop and closed-loop systems. These classifications hinge on the presence or absence of feedback mechanisms, significantly influencing the system's performance, complexity, and application.
An open-loop control system operates without feedback from the output. It consists of two primary elements: the controller and the controlled process. The controller receives an input signal...
717
Controller Configurations01:22

Controller Configurations

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Controller configurations are crucial in a car's cruise control system because they manage speed over time to maintain a consistent pace regardless of road conditions, thereby meeting design goals. In traditional control systems, fixed-configuration design involves predetermined controller placement. System performance modifications are known as compensation.
Control-system compensation involves various configurations, most commonly series or cascade compensation, in which the controller...
94
Static and Kinetic Frictional Force01:05

Static and Kinetic Frictional Force

15.8K
One of the simpler characteristics of sliding friction is that it is parallel to the contact surfaces between systems, and is always in a direction that opposes the motion or attempted motion of the systems relative to each other. If two systems are in contact and moving relative to one another, then the friction between them is called kinetic friction. For example, kinetic friction slows a hockey puck sliding on ice.
However, if two systems are in contact and are stationary relative to one...
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Torque Free Motion01:15

Torque Free Motion

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The torque-free motion refers to the movement of a rigid body in space when no external torques are acting upon it. This type of motion can be observed in environments where there are no external forces or frictions, like in outer space. For example, a rotation of Mars in space is a torque-free motion. Mars is an axisymmetric object, meaning it has an axis of symmetry along which it rotates, designated as the z-axis. The rotating frame of reference is defined such that the center of mass of...
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相关实验视频

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Method to Measure Tone of Axial and Proximal Muscle
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研究基于双相互作用扭矩分相控制方法的外骨合规控制策略.

Liangchuang Liao1,2, Guoan Zhang3, Mingwei Hu2

  • 1Southeast University, Nanjing, Jiangsu, China.

Technology and health care : official journal of the European Society for Engineering and Medicine
|May 31, 2024
PubMed
概括

这项研究引入了一种新的外骨合规控制策略,使用双相互作用扭矩相隔. 这种方法通过有效地管理关节扭矩来提高人机协调和步行时的稳定性.

关键词:
外骨架机器人是外骨架机器人.合规性控制合规性控制的合规性控制模式识别 模式识别 模式识别

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科学领域:

  • 机器人技术 机器人技术 机器人技术
  • 生物力学 生物力学
  • 控制系统 控制系统

背景情况:

  • 人类步行模式识别和合规控制对于有效的人类外骨架机器人交互至关重要.
  • 为了实现高度的协调和协助,需要将机器人系统与人类运动无整合.

研究的目的:

  • 为了提高外骨架机器人适应人体的适应性.
  • 提出一种基于双相互作用扭矩相分离的新型外骨合规控制策略.

主要方法:

  • 使用双交互扭矩的支阶段和摆动阶段分割控制策略.
  • 基于模型的控制用于支持阶段使用人类关节交互力.
  • 使用外骨架关节相互作用力来控制摆动阶段的扭矩闭环控制.

主要成果:

  • 开发了一个下肢外骨膝关节试验平台.
  • 验证了人类步态识别,相互作用力识别和合规控制的有效性.
  • 拟议的控制方法证明了有效的联合扭矩调整.

结论:

  • 开发的控制方法使外骨架机器人能够在整个行走阶段保持平衡和稳定.
  • 这项技术增强了人机合系统的合规控制.