摘要
为解决电力危险点异构化检测问题,提高电网环境下动态节点的目的性调度分配,提出基于电力一体化调度的动态危险点检测方法。按照Hadoop架构的权限属性,连接电量传输客户端及SOA电子识别元件,完成一体化电力调度平台设计。在此基础上,建立理想化的动态多路径通道。通过监听危险点结构定位信息的方式,认证检测节点的物理从属位置,完成电力一体化调度中的动态危险点检测方法研究。实验结果表明:与SVG检测技术相比,采用本文检测方法动态PCA指标最大值达到85.3%,电力危险点的异构化分布范围明显缩小,有效解决了电网环境动态节点的目的性调度分配问题。
In order to solve the problem of heterogeneous detection of power risk points and improve the purposeful dispatching and distribution of dynamic nodes in power grid environment,a dynamic risk point detection method based on integrated power dispatching is proposed.According to the authority attribute of Hadoop architecture,the power transmission client and SOA electronic identification element are connected,and the integrated power dispatching platform is designed.On this basis,an idealized dynamic multi⁃path channel is established.By monitoring the structural location information of dangerous points,the physical subordinate position of detection nodes is authenticated,and the dynamic hazard point detection method in integrated power dispatching is studied.The experimental results show that it is compared with SVG detection technology.Compared with the proposed method,the maximum value of dynamic PCA index is 85.3%,and the isomerization distribution range of power risk points is obviously reduced,which effectively solves the problem of purposeful dispatching and distribution of dynamic nodes in power grid environment.
作者
项烨鋆
孙景钌
胡长洪
赵碚
黄绵绵
XIANG Yejun;SUN Jingliao;HU Changhong;ZHAO Bei;HUANG Mianmian(State Grid Wenzhou Electric Power Supply Company,Wenzhou 325000,China)
出处
《电子设计工程》
2020年第20期97-101,共5页
Electronic Design Engineering
基金
浙江省国网温州供电公司科技项目(c121017018)。
关键词
一体化调度
电力危险点
动态检测
Hadoop架构
传输客户端
SOA识别元件
动态多路径
监听定位
integrated dispatching
power dangerous point
dynamic detection
Hadoop architecture
transmissionclient
SOAidentificationelement
dynamicmultipath
monitoringandpositioning