计算机工程与应用
計算機工程與應用
계산궤공정여응용
COMPUTER ENGINEERING AND APPLICATIONS
2014年
10期
227-232
,共6页
流向计算%流向树%树形探测法%排水系统%水流流向确定
流嚮計算%流嚮樹%樹形探測法%排水繫統%水流流嚮確定
류향계산%류향수%수형탐측법%배수계통%수류류향학정
flow direction calculation%flow tree%tree detection algorithm%drainage system%water flow calculation
提出了确定复杂管路网络中流体流向的计算方法--树形探测法,通过将管路网络转化为树形拓扑结构,借助基于仿生算法的树形递归原理,在已知节点驱动类型的基础上,确定流体在整个系统各环节的流向。借助计算机语言C#,利用泛型参数技术、接口技术和基于委托技术的Observer设计模式实现了“树形探测法”通用组件接口。该算法被应用于神华神东锦界煤矿复杂排水系统的计算机仿真平台中,将闸阀、水泵和接头作为节点,管道作为边,利用树形探测法确定水流流向,应用效果较好。
提齣瞭確定複雜管路網絡中流體流嚮的計算方法--樹形探測法,通過將管路網絡轉化為樹形拓撲結構,藉助基于倣生算法的樹形遞歸原理,在已知節點驅動類型的基礎上,確定流體在整箇繫統各環節的流嚮。藉助計算機語言C#,利用汎型參數技術、接口技術和基于委託技術的Observer設計模式實現瞭“樹形探測法”通用組件接口。該算法被應用于神華神東錦界煤礦複雜排水繫統的計算機倣真平檯中,將閘閥、水泵和接頭作為節點,管道作為邊,利用樹形探測法確定水流流嚮,應用效果較好。
제출료학정복잡관로망락중류체류향적계산방법--수형탐측법,통과장관로망락전화위수형탁복결구,차조기우방생산법적수형체귀원리,재이지절점구동류형적기출상,학정류체재정개계통각배절적류향。차조계산궤어언C#,이용범형삼수기술、접구기술화기우위탁기술적Observer설계모식실현료“수형탐측법”통용조건접구。해산법피응용우신화신동금계매광복잡배수계통적계산궤방진평태중,장갑벌、수빙화접두작위절점,관도작위변,이용수형탐측법학정수류류향,응용효과교호。
An approach called“tree detection algorithm”is presented. It is used to calculate the direction of flow in complex piping network. By representing the piping network with tree topology, using the principle of recursive tree based on bionic mechanism, the direction of all the aspects can be determined in the piping system. A general component of the algorithm is developed using C# computer language based on generic parameter, interface technology and delegated Observer Mode. The algorithm is then applied to Mine Drainage System of Jinjie Colliery. By taking the water pumps& joints as nodes, and pipes as edges, all flow directions can be automatically calculated with“tree detection algorithm”. Application results show that it can be an effective solution to calculate water flow.