Control of Spatially Interconnected Systems with Random Communication Losses 被引量：4

Control of Spatially Interconnected Systems with Random Communication Losses

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摘要 This paper deals with analysis and synthesis problems of spatially interconnected systems where communicated information may get lost between subsystems. Spatial shift operator and temporal forward shift operator are introduced to model the interconnected systems as discrete time-space multidimensional linear systems with Markovian jumping parameters which reflect the state of communication channels. To ensure the whole system＇s well-posedness and mean square stability for a given packet loss rate, a condition is derived through analysis. Then a procedure of designing distributed dynamic output feedback controllers is proposed. The controllers have the same structure as the plants and are solved within the linear matrix inequality （LMI） framework. Finally, we apply these results to study the effect of communication losses on the multiple vehicle platoon control system, which further illustrates the effectiveness of the proposed model and method. This paper deals with analysis and synthesis problems of spatially interconnected systems where communicated information may get lost between subsystems. Spatial shift operator and temporal forward shift operator are introduced to model the interconnected systems as discrete time-space multidimensional linear systems with Markovian jumping parameters which reflect the state of communication channels. To ensure the whole system＇s well-posedness and mean square stability for a given packet loss rate, a condition is derived through analysis. Then a procedure of designing distributed dynamic output feedback controllers is proposed. The controllers have the same structure as the plants and are solved within the linear matrix inequality （LMI） framework. Finally, we apply these results to study the effect of communication losses on the multiple vehicle platoon control system, which further illustrates the effectiveness of the proposed model and method.

作者 LI Hui WU Qing-He HUANG Huang

机构地区 School of Automation Key Laboratory of Complex System Intelligent Control and Decision (Beijing Institute of Technology)

出处《自动化学报》 EI CSCD 北大核心 2010年第2期258-266,共9页 Acta Automatica Sinica

关键词 Spatially interconnected system communication loss Markovian jump linear system linear matrix inequality （LMI） Spatially interconnected system communication loss Markovian jump linear system linear matrix inequality （LMI）

分类号 O231 [理学—运筹学与控制论] TP2 [自动化与计算机技术—检测技术与自动化装置]

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