Stabilisation of highly non-linear continuous-time hybrid stochastic differential delay equations by discrete-time feedback control

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Stabilisation of highly non-linear continuous-time hybrid stochastic differential delay equations by discrete-time feedback control

机译：离散反馈控制稳定高非线性连续时间混合随机微分时滞方程

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In this study, the authors consider how to use discrete-time state feedback to stabilise hybrid stochastic differential delay equations. The coefficients of these stochastic differential delay equations do not satisfy the conventional linear growth conditions, but are highly non-linear. Using the Lyapunov functional method, they show that a discrete feedback controller, which depends on the states of the discrete-time observations, can be designed to make the solutions of such controlled hybrid stochastic differential delay equations asymptotically stable and exponentially stable. The upper bound of the discrete observation interval tau is also given in this study. Finally, a numerical example is given to illustrate the proposed theory.

机译：在这项研究中，作者考虑了如何使用离散时间状态反馈来稳定混合随机微分延迟方程。这些随机微分延迟方程的系数不满足常规的线性增长条件，而是高度非线性的。他们使用Lyapunov泛函方法表明，可以设计一个离散反馈控制器，该控制器取决于离散时间观测的状态，以使这种受控混合随机微分延迟方程的解渐近稳定和指数稳定。这项研究还给出了离散观测间隔tau的上限。最后，通过数值例子说明了所提出的理论。

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《Control Theory & Applications, IET》 |2020年第2期|313-323|共11页
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Nanjing Univ Sci & Technol Sch Sci Nanjing 210094 Jiangsu Peoples R China|Anhui Polytech Univ Minist Educ Key Lab Adv Percept & Intelligent Control High En Wuhu 241000 Peoples R China|Anhui Polytech Univ Sch Math & Phys Wuhu 241000 Peoples R China;

Donghua Univ Glorious Sun Sch Business & Management Shanghai 200051 Peoples R China;

Anhui Polytech Univ Minist Educ Key Lab Adv Percept & Intelligent Control High En Wuhu 241000 Peoples R China|Anhui Polytech Univ Sch Math & Phys Wuhu 241000 Peoples R China;

Univ Strathclyde Dept Math & Stat Glasgow G1 1XH Lanark Scotland;

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discrete time systems; state feedback; asymptotic stability; stochastic processes; differential equations; continuous time systems; delays; feedback; Lyapunov methods; stochastic systems; control system synthesis; nonlinear control systems; discrete-time state feedback; discrete feedback controller; discrete-time observations; controlled hybrid stochastic differential delay equations; discrete observation interval; nonlinear continuous-time hybrid stochastic differential delay equations; discrete-time feedback control; Lyapunov functional method;

机译：离散时间系统;状态反馈;渐近稳定性随机过程;微分方程;连续时间系统;延误;反馈;Lyapunov方法;随机系统;控制系统综合非线性控制系统;离散时间状态反馈;离散反馈控制器离散时间观测;控制混合随机微分时滞方程;离散的观察间隔非线性连续时间混合随机微分时滞方程;离散时间反馈控制;Lyapunov函数法;

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专利

1. pth moment exponential stabilisation of hybrid stochastic differential equations by feedback controls based on discrete-time state observations with a time delay [J] . Quanxin Zhu, Qiuyan Zhang Control Theory & Applications, IET . 2017,第12期

机译：时滞离散时间状态观测的反馈控制混合随机微分方程的pth矩指数镇定
2. Stabilisation of highly nonlinear hybrid stochastic differential delay equations by delay feedback control [J] . Li Xiaoyue, Mao Xuerong Automatica . 2020,第期

机译：延迟反馈控制稳定高度非线性混合随机差动延迟方程
3. STABILISATION BY DELAY FEEDBACK CONTROL FOR HIGHLY NONLINEAR HYBRID STOCHASTIC DIFFERENTIAL EQUATIONS [J] . Lu Zhenyu, Hu Junhao, Mao Xuerong Discrete and continuous dynamical systems . 2019,第8期

机译：高非线性混合随机微分方程的延迟反馈控制镇定。
4. Delay-Dependent stabilization for hybrid stochastic delay systems by discrete-time feedback control [C] . Li Yu-Yuan, Kou Chun-Hai IEEE International conference on Control Science and Systems Engineering . 2017

机译：离散时间反馈控制混合随机时滞系统的时滞相关镇定
5. Bifurcations in stochastic equations with delayed feedback. [D] . Gaudreault, Mathieu. 2011

机译：具有延迟反馈的随机方程的分叉。
6. Modeling delay in genetic networks: From delay birth-death processes to delay stochastic differential equations [O] . Chinmaya Gupta, José Manuel López, Robert Azencott, -1

机译：遗传网络中的延迟建模：从延迟出生-死亡过程到延迟随机微分方程
7. Stabilisation of highly nonlinear hybrid stochastic differential delay equations by delay feedback control [O] . Xiaoyue Li, Xuerong Mao 2020

机译：延迟反馈控制稳定高度非线性混合随机差动延迟方程

Stabilisation of highly non-linear continuous-time hybrid stochastic differential delay equations by discrete-time feedback control

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