Event-triggered mechanism of designing set stabilization state feedback controller for switched Boolean networks
作者:
Highlights:
• Compared with the existing results, an improved algorithm which can effectively reduce computational complexity of calculating the maximum control invariant set is given.
• An explicit criterion is derived to check whether a switched Boolean network satisfies set stabilization.
• An event-triggered mechanism is formulated in the process of designing time-varying set stabilization state feedback controller.
• A systematic procedure is devised to design event-triggered set stabilization state feedback controller of switched Boolean networks.
• A method is proposed to obtain all possible event-triggered state feedback controllers for set stabilization of switched Boolean networks.
摘要
•Compared with the existing results, an improved algorithm which can effectively reduce computational complexity of calculating the maximum control invariant set is given.•An explicit criterion is derived to check whether a switched Boolean network satisfies set stabilization.•An event-triggered mechanism is formulated in the process of designing time-varying set stabilization state feedback controller.•A systematic procedure is devised to design event-triggered set stabilization state feedback controller of switched Boolean networks.•A method is proposed to obtain all possible event-triggered state feedback controllers for set stabilization of switched Boolean networks.
论文关键词:Semi-tensor product of matrices,Set stabilization,Switched Boolean networks,State feedback control
论文评审过程:Received 9 February 2020, Revised 28 April 2020, Accepted 10 May 2020, Available online 26 May 2020, Version of Record 26 May 2020.
论文官网地址:https://doi.org/10.1016/j.amc.2020.125372
