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相关概念视频

Feedback control systems01:26

Feedback control systems

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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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Time-Domain Interpretation of PD Control01:07

Time-Domain Interpretation of PD Control

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Proportional-Derivative (PD) control is a widely used control method in various engineering systems to enhance stability and performance. In a system with only proportional control, common issues include high maximum overshoot and oscillation, observed in both the error signal and its rate of change. This behavior can be divided into three distinct phases: initial overshoot, subsequent undershoot, and gradual stabilization.
Consider the example of control of motor torque. Initially, a positive...
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PD Controller: Design01:26

PD Controller: Design

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In automotive engineering, car suspension systems often employ Proportional Derivative (PD) controllers to enhance performance. PD controllers are utilized to adjust the damping force in response to road conditions. A controller, acting as an amplifier with a constant gain, demonstrates proportional control, with output directly mirroring input.
Designing a continuous-data controller requires selecting and linking components like adders and integrators, which are fundamental in Proportional,...
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SFG Algebra01:16

SFG Algebra

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In Signal Flow Graph (SFG) algebra, the value a node represents is determined by the sum of all signals entering that node. This summed value is then transmitted through every branch leaving the node, making the SFG a powerful tool for visualizing and analyzing control systems.
Each node in an SFG corresponds to a variable, and the interactions between nodes are represented by branches with associated gains. When multiple branches lead into a node, the value at that node is the sum of the...
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Control Systems01:10

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Control systems are everywhere in contemporary society, influencing diverse applications from aerospace to automated manufacturing. These systems can be found naturally within biological processes, such as blood sugar regulation and heart rate adjustment in response to stress, as well as in man-made systems like elevators and automated vehicles. A control system is essentially a network of subsystems and processes that collaboratively convert specific inputs into desired outputs.
At the heart...
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BIBO stability of continuous and discrete -time systems01:24

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System stability is a fundamental concept in signal processing, often assessed using convolution. For a system to be considered bounded-input bounded-output (BIBO) stable, any bounded input signal must produce a bounded output signal. A bounded input signal is one where the modulus does not exceed a certain constant at any point in time.
To determine the BIBO stability, the convolution integral is utilized when a bounded continuous-time input is applied to a Linear Time-Invariant (LTI) system....
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相关实验视频

Updated: Jun 6, 2025

Design and Application of a Fault Detection Method Based on Adaptive Filters and Rotational Speed Estimation for an Electro-Hydrostatic Actuator
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基于屏障功能的非线性系统的分布式自适应安全耐故障控制.

Min Zhang1, Xiangbin Liu2, Hongye Su3

  • 1School of Automation and Intelligence, Beijing Jiaotong University, No. 3 Shangyuancun, Beijing, 100044, China; School of Electronic Information Engineering, Xi'an Technological University, No. 2, Xuefu Middle Road, Weiyang District, Xi'an, 710021, China.

ISA transactions
|November 24, 2024
PubMed
概括

本研究介绍了适应性安全的耐故障控制器框架,用于面临未知故障的非线性系统. 这种新的方法确保了系统的稳定性和安全性,即使在复杂的相互连接的场景中.

关键词:
适应神经控制 适应神经控制屏障功能 屏障功能有故障耐受性的控制器.相互连接的非线性系统国家制约国家制约

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科学领域:

  • 控制系统工程 控制系统工程
  • 非线性动力学是一种非线性动力学.
  • 耐故障控制控制的控制方式

背景情况:

  • 在未知故障下确保系统稳定性和安全性在控制系统中至关重要.
  • 现有的耐故障控制方法经常与复杂的非线性和相互连接的系统作斗争.

研究的目的:

  • 提出一个新的自适应安全耐故障 (SFT) 控制器设计框架.
  • 为了保证单个和相互连接的非线性系统在存在未知的故障时的系统稳定性和安全性.

主要方法:

  • 开发了一种适应性故障耐受控制器,用于单个系统,确保安全性和非对称稳定性.
  • 利用神经网络 (NN) 来参数化相互连接系统中的未知故障和相互连接术语.
  • 通过放松稳定性条件来简化设计,提出了基于确定性等效 (CE) 的自适应控制器.

主要成果:

  • 为单个系统实现了同时的安全性和非对称稳定性.
  • 获得了输入到状态的安全性和统一的终极界限性,用于控制的相互连接系统.
  • 通过对两个相互连接的倒置的数值模拟来证明框架的有效性.

结论:

  • 拟议的自适应式SFT控制器框架有效地确保了未知故障的非线性系统的稳定性和安全性.
  • 使用基于NN和CE的控制简化了设计,同时保持了相互连接系统的性能.
  • 该方法为需要高可靠性和安全性的关键应用提供了强大的解决方案.