化工自动化及仪表
化工自動化及儀錶
화공자동화급의표
Control and Instruments in Chemical Industry
2015年
11期
1254-1257
,共4页
路由算法%低压电力线载波通信%传输矩阵%OPNET%Simulator
路由算法%低壓電力線載波通信%傳輸矩陣%OPNET%Simulator
로유산법%저압전력선재파통신%전수구진%OPNET%Simulator
routing algorithm%PLCC%transmission matrix%OPNET Simulator
为了提高低压电力线载波通信的可靠性,以基于传输矩阵的动态路由算法为例,探讨基于OP-NET Simulator的低压电力线载波通信路由算法。探讨数据帧设计、进程建模、节点建模和网络结构建模的方法,由仿真结果可以分别确定创建传输矩阵所需时间与传输速率和节点数量之间的关系。
為瞭提高低壓電力線載波通信的可靠性,以基于傳輸矩陣的動態路由算法為例,探討基于OP-NET Simulator的低壓電力線載波通信路由算法。探討數據幀設計、進程建模、節點建模和網絡結構建模的方法,由倣真結果可以分彆確定創建傳輸矩陣所需時間與傳輸速率和節點數量之間的關繫。
위료제고저압전력선재파통신적가고성,이기우전수구진적동태로유산법위례,탐토기우OP-NET Simulator적저압전력선재파통신로유산법。탐토수거정설계、진정건모、절점건모화망락결구건모적방법,유방진결과가이분별학정창건전수구진소수시간여전수속솔화절점수량지간적관계。
For purpose of improving the reliability of low-voltage power line carrier communication ( PLCC ) and taking the transmission matrix-based dynamic routing algorithm as an example, the OPNET Simulator-based PLCC routing algorithm was discussed, including the method of designing data frames, process model, node model and network model respectively.The simulation results can determine the relationship between the duration of creating a transmission matrix and the transmission speed and the quantity of network nodes.
