| 1. | Modeling research in air traffic flow control system
一类地面等待问题的离散时间系统求解方法 |
| 2. | Adaptive fuzzy logic compensation control for nonlinear discrete - time systems
非线性离散时间系统的自适应模糊补偿控制 |
| 3. | Stability analysis of iterative learning control for nonlinear discrete - time systems
非线性离散时间系统迭代学习控制的稳定性分析 |
| 4. | Optimization approach to robust fdf design for uncertain discrete - time systems
一类不确定离散时间系统的鲁棒故障诊断滤波器优化设计方法 |
| 5. | Adaptive control of nonlinear discrete - time systems using radial basis function networks
基于径向基函数网络的非线性离散时间系统的自适应控制 |
| 6. | ( 3 ) an adaptive functional observer ( afo ) for nonlinear discrete - time systems is proposed
( 3 )提出了一种非线性离散时间系统自适应函数观测器。 |
| 7. | In this thesis , a detailed analysis of the current situation of study on variable structure and a discussion about the discrete - time systems vsc are stressed . the main contents in this thesis are as follows . 1
主要内容包括如下几个方面:一、论述与本文有关的背景;二、给出了离散时间系统变结构控制的有关概念,分析了离散时间系统滑动模态的到达条件、存在条件和稳定性问题。 |
| 8. | The state trajectory of system is chattering , which restrict it ' s actual applications . in the circumstances , the arrival condition and the existence condition have been changed . it is significant to study discrete - time vsc ( dvsc ) to reduce chattering of sliding mode
同时,在离散的情况下,滑动模态的性质、存在条件及其到达条件都已经改变,因此研究离散时间系统变结构控制方法对降低抖振具有重要的理论价值和实际意义。 |
| 9. | - - introduction of the problem there are several kinds of control designs for nonlinear adaptive system . for two concrete examples of nonlinear continuous systems and nonlinear discrete systems , this thesis obliterate the key obstacle that is encountered when solving the problem of adaptive control by nn
非线性自适应控制有各种各样的控制方案,本文针对非线性连续时间系统及非线性离散时间系统,具体到两个实际的例子,解决了利用神经网处理自适应问题所遇到的一关键性障碍。 |
| 10. | Hence analysis and design of nonlinear sampled - data systems has been , in recent years , a subject of growing interest in the international community of control research . when a continuous - time plant is controlled using a digitally implemented controller , it is often faced that a continuous - time plant is transformed into its equivalent discrete - time model . a digital controller is usually designed on the base of approximate discrete - time models of the continuous - time nonlinear systems because it is difficult to obtain the closed form of the exact discrete - time model for nonlinear control systems
利用计算机等一类离散控制装置来控制连续时间的受控对象时,都会遇到把连续时间系统化为等价的离散时间系统的问题,通过采样器和保持器来实现离散时间的采样控制,对于非线性连续受控系统,由于连续系统的时间离散化后一般得不到其等价的精确离散化模型表示的有限形式,实际上由其近似离散化模型代替来设计控制器,而近似会引起信号失真,那么基于近似离散化模型上设计的采样控制器,它是否同样对原连续受控系统有效 |
