研究了一类具有有界去包的网络控制系统(Networked control systems,NCSs)的保成本控制问题,提出了一种包含量化反馈的网络控制系统数学模型,该模型将系统的镇定问题转化为镇定一系列子系统的鲁棒控制问题.在对网络控制系统的分析中,区...研究了一类具有有界去包的网络控制系统(Networked control systems,NCSs)的保成本控制问题,提出了一种包含量化反馈的网络控制系统数学模型,该模型将系统的镇定问题转化为镇定一系列子系统的鲁棒控制问题.在对网络控制系统的分析中,区别于常用的二次型Lyapunov函数,本文采用了一种新的且能够降低保守性的量化依赖Lyapunov函数方法.基于本文的Lyapunov函数,得到了充分考虑丢包过程的保成本控制器的设计方法.仿真算例验证了所给出方法的有效性.展开更多
Time-delay of magnetorheological elastomer bearing(MRB) can bring structural response menace to bridges. This paper investigates a bridge pier-bearing semi-active-coupling control method based on model predictive cont...Time-delay of magnetorheological elastomer bearing(MRB) can bring structural response menace to bridges. This paper investigates a bridge pier-bearing semi-active-coupling control method based on model predictive control(MPC). The presented strategy takes the structure prediction model to predict the state responses of the controlled plant in a period of future time. Then, the control law can be determined by solving a finite horizon optimization problem. The peak shearing force of pier top, the displacement and the acceleration of beam are chosen as control goals, and the vibration isolation rate is applied to characterize the vibration isolation effect.It is noted that MPC method naturally takes the time-delay and uncertain interference into consideration, and significantly improves the control performance of the system. Finally, the numerical example is described and the seismic response of isolated bridge based on MRB is analyzed. The simulation results show that predictive control can be used to control the time-delay of bridge system in different degrees. The best control performance is at0.4 s. Even if the time-delay reaches 2 s, it is still good. Therefore, the control method significantly reduces the adverse effects of time-delay on the system, and has a good vibration isolation performance.展开更多
文摘研究了一类具有有界去包的网络控制系统(Networked control systems,NCSs)的保成本控制问题,提出了一种包含量化反馈的网络控制系统数学模型,该模型将系统的镇定问题转化为镇定一系列子系统的鲁棒控制问题.在对网络控制系统的分析中,区别于常用的二次型Lyapunov函数,本文采用了一种新的且能够降低保守性的量化依赖Lyapunov函数方法.基于本文的Lyapunov函数,得到了充分考虑丢包过程的保成本控制器的设计方法.仿真算例验证了所给出方法的有效性.
基金the Chongqing Outstanding Youth Found(No.cstc2014jcyjjq40004)the Science and Technology Research Project of the Chongqing Municipal Education Committee(No.KJ1600416)+2 种基金the National Natural Science Foundation of China(No.11372366)the Chongqing Postgraduate Research and Innovation Project(No.CYS17123)the Research Project of Chongqing Science and Technology Commission(No.cstc2018jcyjAX0691)
文摘Time-delay of magnetorheological elastomer bearing(MRB) can bring structural response menace to bridges. This paper investigates a bridge pier-bearing semi-active-coupling control method based on model predictive control(MPC). The presented strategy takes the structure prediction model to predict the state responses of the controlled plant in a period of future time. Then, the control law can be determined by solving a finite horizon optimization problem. The peak shearing force of pier top, the displacement and the acceleration of beam are chosen as control goals, and the vibration isolation rate is applied to characterize the vibration isolation effect.It is noted that MPC method naturally takes the time-delay and uncertain interference into consideration, and significantly improves the control performance of the system. Finally, the numerical example is described and the seismic response of isolated bridge based on MRB is analyzed. The simulation results show that predictive control can be used to control the time-delay of bridge system in different degrees. The best control performance is at0.4 s. Even if the time-delay reaches 2 s, it is still good. Therefore, the control method significantly reduces the adverse effects of time-delay on the system, and has a good vibration isolation performance.