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相关概念视频

Linear time-invariant Systems01:23

Linear time-invariant Systems

261
A system is linear if it displays the characteristics of homogeneity and additivity, together termed the superposition property. This principle is fundamental in all linear systems. Linear time-invariant (LTI) systems include systems with linear elements and constant parameters.
The input-output behavior of an LTI system can be fully defined by its response to an impulsive excitation at its input. Once this impulse response is known, the system's reaction to any other input can be...
261
Conservation of Energy in Control Volume01:14

Conservation of Energy in Control Volume

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Consider a turbine operating under steady-flow conditions. The control volume is drawn around the turbine, with fluid entering at one point and exiting at another. The turbine extracts energy from the fluid, which performs mechanical work (shaft work).
For steady flow systems, the time derivative of the stored energy becomes zero since there is no energy accumulation within the control volume. This simplifies the energy equation to:
841
First Order Systems01:21

First Order Systems

92
First-order systems, such as RC circuits, are foundational in understanding dynamic systems due to their straightforward input-output relationship. Analyzing their responses to different input functions under zero initial conditions reveals significant insights into system behavior.
When a first-order system is subjected to a unit-step input, its response is characterized by its transfer function. By applying the Laplace transform of the unit-step input to the transfer function, expanding the...
92
Transfer Function in Control Systems01:21

Transfer Function in Control Systems

490
The transfer function is a fundamental concept in the analysis and design of linear time-invariant (LTI) systems. It offers a concise way to understand how a system responds to different inputs in the frequency domain. It serves as a bridge between the time-domain differential equations that describe system dynamics and the frequency-domain representation that facilitates easier manipulation and analysis.
To derive the transfer function, consider a general nth-order linear time-invariant...
490
Control Systems01:10

Control Systems

1.1K
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

BIBO stability of continuous and discrete -time systems

397
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....
397

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相关实验视频

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基于观察者的事件触发的H∞控制用于哈密尔顿系统.

Dongqing Liu1, Weiwei Sun2, Yaping Tang1

  • 1Institute of Automation, Qufu Normal University, Qufu, 273165, PR China.

ISA transactions
|February 2, 2024
PubMed
概括
此摘要是机器生成的。

本研究介绍了一个事件触发的H∞控制器用于网络的哈密尔顿系统,即使在未知状态和网络延迟的情况下,也提高了稳定性和性能. 拟议的方法通过使用系统哈密尔顿式来触发事件来确保可靠的控制.

关键词:
事件触发的计划事件触发的计划.H ((∞) 控制控制的时间.网络的哈密尔顿系统.国家观察员国家观察员.

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科学领域:

  • 控制理论 控制理论
  • 网络化系统 网络化系统
  • 电力系统工程 电力系统工程

背景情况:

  • 网络控制系统经常因延误而遭受性能下降.
  • 哈密尔顿系统具有独特的结构性质,对于稳定性分析至关重要.
  • 当系统状态无法直接测量时,基于观察者的控制是必不可少的.

研究的目的:

  • 为具有网络延迟的哈密尔顿系统设计基于观察者的事件触发的H∞控制器.
  • 开发一种基于系统的哈密尔顿式的新型事件触发机制.
  • 为了确保全球对称稳定性,并在外部干扰下实现H∞性能指数.

主要方法:

  • 一个由事件触发的方案,使用哈密尔顿式来确定触发时间.
  • 基于观察者的控制器的设计,以处理未知的状态.
  • 将闭环系统转化为时间延迟的哈密尔顿系统.
  • 根据系统结构来推导H∞性能的足够条件.

主要成果:

  • 拟议的事件触发方案有效地管理网络通信.
  • 基于观察者的控制器确保了对未知状态的系统的稳定性和H∞性能.
  • 对于可用和不可用状态都建立了保证H∞性能指数的足够条件.
  • 在多机器动力系统上的模拟结果验证了控制器的有效性.

结论:

  • 开发的基于观察者的事件触发的H∞控制器对具有延迟的网络汉密尔顿系有效.
  • 基于哈密尔顿式的事件触发策略提高了控制效率.
  • 该方法在电力系统应用中提供了对外部干扰的强大性能.