Each observer decides what to observe, so the overall workflow is based on individual decisions rather than an overriding flow controller.
每个观察者决定观察什么,所以整个工作流是建立在单个决定基础之上,而不是一个过载流程控制器。
First, based on fuzzy dynamic state space model, the fuzzy controller and observer are designed for the nonlinear discrete systems.
首先,论文完成了一大类非线性离散系统模糊控制器和观测器的设计。
The authors study the design problem of observer-based robustly stable controller for time-delay systems with a class of nonlinear uncertainty.
研究了一类具有非线性不确定性时滞系统的基于状态观测器的鲁棒稳定控制器的设计问题。
Discusses the design of an observer-based optimal guaranteed cost controller for a class of singular systems with state-delay and parameter uncertainties.
讨论一类含有参数不确定性且具有状态滞后的广义时滞系统的观测器型最优保成本控制器设计问题。
To overcome the influence of some outer factors, parameters of controller are adjusted online based on the error observer.
为了更好地克服各种外界因素的影响,构造了误差观测器,在线实时调整控制器参数。
As for a class of T-S fuzzy descriptor systems with norm-bounded uncertainties, the design problem of observer-based passive fuzzy controller was studied.
针对一类范数有界不确定性t - S模糊广义系统,研究了其在满足不确定性的基于观测器的无源控制器的设计问题。
Based on designing the observer, a switching strategy and sub-controller, which use the observer value, are designed to guarantee that the closed-loop system is exponentially asymptotically stable.
在所设计的观测器基础上,以系统状态的观测值为依据设计各子控制器和切换方案,使整个闭环系统是指数渐近稳定的。
The results show that PID controller based on the disturbance observer can effectively suppress wind load disturbance.
结果表明,基于干扰观测器的PID控制器可以有效地抑制风载荷扰动。
An adaptive speed control scheme for DC drive system, which combines an adaptive PID controller based on single neuron with a load observer, is presented.
针对直流调速系统,将单神经元自适应PID控制器与负载观测器有机结合,提出了一种基于单神经元的自适应速度控制方法。
An adaptive speed control scheme for DC drive system, which combines an adaptive PID controller based on single neuron with a load observer, is presented.
针对直流调速系统,将单神经元自适应PID控制器与负载观测器有机结合,提出了一种基于单神经元的自适应速度控制方法。
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