摘要
为实现智能电能表离散型自动化检定系统的优化运行,提出了一种多系统协同运行方案。首先,在设备物理层面,基于智能电能表的离散型自动化检定特点,根据设备类别将离散型自动化检定系统划分为各子系统,构建离散型自动化检定的设备调度控制模式。其次,结合各子系统的特点以及在设备调度控制模式中的功能,基于优先级设计自动化检定调度系统的自动叫表流程,提出自动导引车(AGV)调度子系统搬运策略,建立机器人(RGV)控制子系统的挂卸表规则。接着采用前馈反馈验证机制,构建了封印贴标控制子系统的调度控制模式。然后,基于系统协同效应理论,采用帕累托多目标优化方法,建立离散型自动化检定系统协同优化调度的概念模型。最后,构建了智能电能表离散型自动化检定协同运行平台方案。实际工程应用验证了该方案的高效性和可行性。
A multi-system collaborative operation scheme is proposed to implement optimize operation of automation verification system of smart power meters. Firstly,from the physical layer of device,based on the characteristics of discrete automation verification of electrical power meters,the whole verification system is divided into several subsystems according to the device class,scheduling control mode of the discrete automation verification devices is constructed. Secondly,combining with features of each subsystem and its functions in device scheduling control mode,based on priority,the automatic "meter pointed"process of the scheduling system is designed,the automated guided vehicle( AGV) strategy is put forward,and the load/unload rules of the rail guided vehicle( RGV) control subsystem is setup. The scheduling control mode of the seal and labeling subsystem is established by using feedforward-feedback verification mechanism. Thirdly,based on synergy theory and Pareto multi-object optimization method,the collaborative optimization scheduling model of discrete automation verification system is setup. Finally,the scheme of collaborative operation platform of discrete automation verification is constructed. The practical engineering application proves the high efficiency and feasibility of this achievement.
出处
《自动化仪表》
CAS
2017年第7期98-102,共5页
Process Automation Instrumentation
关键词
智能电网
协同
离散型
调度控制
自动化检定
智能电能表
Smart grid
Collaborative
Discrete
Scheduling control
Automation verification
Smart meter
