The network delay of the periodic messages transmission in the network control system (NCS) based on Ethemet for plant automation (EPA) is analyzed from the theoretical and experimental perspective in this paper. ...The network delay of the periodic messages transmission in the network control system (NCS) based on Ethemet for plant automation (EPA) is analyzed from the theoretical and experimental perspective in this paper. The composition and the characteristics of the network delay of EPA periodic messages transmission in a subnet is studied through analyzing the information transmission regularity and EPA deterministic scheduling mechanism. On this basis, the queuing delay at communication schedule management entity (EPA _ CSME) that is the most important component of network delay is analyzed, during which the formulas for the queuing delay of periodic messages and other real time parameters are proposed. Furthermore, an experiment is developed to test each component of network delay of periodic messages transmission in a EPA subnet. According to the experimental and the theoretical analysis, the conclusion is drawn that the delay during which the periodic messages wait for the periodic messages transmission time slice is the main factor that causes considerable network delay, and improvement method is presented.展开更多
基金Supported by the National High Technology Research and Development Programme of China (No. 2006AA040301-4, 2007AA041301-6 2007AA041407).
文摘The network delay of the periodic messages transmission in the network control system (NCS) based on Ethemet for plant automation (EPA) is analyzed from the theoretical and experimental perspective in this paper. The composition and the characteristics of the network delay of EPA periodic messages transmission in a subnet is studied through analyzing the information transmission regularity and EPA deterministic scheduling mechanism. On this basis, the queuing delay at communication schedule management entity (EPA _ CSME) that is the most important component of network delay is analyzed, during which the formulas for the queuing delay of periodic messages and other real time parameters are proposed. Furthermore, an experiment is developed to test each component of network delay of periodic messages transmission in a EPA subnet. According to the experimental and the theoretical analysis, the conclusion is drawn that the delay during which the periodic messages wait for the periodic messages transmission time slice is the main factor that causes considerable network delay, and improvement method is presented.
