电网技术
電網技術
전망기술
POWER SYSTEM TECHNOLOGY
2011年
12期
14-19
,共6页
智能电网%配电通信网%业务模型%通信网架构
智能電網%配電通信網%業務模型%通信網架構
지능전망%배전통신망%업무모형%통신망가구
smart grid%distribution communication network%service model%communication network framework
结合国内外最新的智能电力通信网建设理论,研究了配用电通信网建设的具体规划和设计实现。首先分析了智能配用电网的相关业务、业务之间的关系、业务通信需求等,构建出对应各类业务的基础业务网络模型。然后从多业务融合网络发展角度,分析了构建4种业务融合通信网络涉及的关键技术要素(如可用的通信技术、通信协议结构、综合网管技术、网络安全技术等)。最后结合实际建设经验,提出一个支撑高级配电自动化、用电信息采集、视频监视及环境监测、用能服务、临时应急通信等业务的多技术组网的典型基础结构,并给了建设这种通信网的典型技术实现方案。
結閤國內外最新的智能電力通信網建設理論,研究瞭配用電通信網建設的具體規劃和設計實現。首先分析瞭智能配用電網的相關業務、業務之間的關繫、業務通信需求等,構建齣對應各類業務的基礎業務網絡模型。然後從多業務融閤網絡髮展角度,分析瞭構建4種業務融閤通信網絡涉及的關鍵技術要素(如可用的通信技術、通信協議結構、綜閤網管技術、網絡安全技術等)。最後結閤實際建設經驗,提齣一箇支撐高級配電自動化、用電信息採集、視頻鑑視及環境鑑測、用能服務、臨時應急通信等業務的多技術組網的典型基礎結構,併給瞭建設這種通信網的典型技術實現方案。
결합국내외최신적지능전력통신망건설이론,연구료배용전통신망건설적구체규화화설계실현。수선분석료지능배용전망적상관업무、업무지간적관계、업무통신수구등,구건출대응각류업무적기출업무망락모형。연후종다업무융합망락발전각도,분석료구건4충업무융합통신망락섭급적관건기술요소(여가용적통신기술、통신협의결구、종합망관기술、망락안전기술등)。최후결합실제건설경험,제출일개지탱고급배전자동화、용전신식채집、시빈감시급배경감측、용능복무、림시응급통신등업무적다기술조망적전형기출결구,병급료건설저충통신망적전형기술실현방안。
Based on the up-to-date theory for the construction of smart power communication network home and abroad, the concrete planning, design and implementation of the construction of power distribution and utilization network are researched. Firstly, the related services of smart power distribution and utilization network and the relation among services and demands of service communication are analyzed, and basic service network models corresponding to various types of services are constructed; then in the viewpoint of the development of the network merging multi services, key technical elements related to the construction of communication network merging four kind of services such as available communication technology, structure of communication protocols, technology of synthetical network management and network security technology, are analyzed; finally based on the experiences of actual construction a typical infrastructure based on multi-technological networking, which can support following services: advanced distribution automation, acquisition of power utilization information, video surveillance and environment monitoring, bi-directional information communication between power suppliers and consumers and temporary emergency communication, is put forward, and corresponding typical technical implementation scheme for the construction of such a communication network is given.