计算机应用
計算機應用
계산궤응용
COMPUTER APPLICATION
2014年
z2期
11-15
,共5页
ZigBee%地址分配%地址偏移%网络深度%动态扩展
ZigBee%地阯分配%地阯偏移%網絡深度%動態擴展
ZigBee%지지분배%지지편이%망락심도%동태확전
ZigBee%address assignment%address offset%network depth%dynamic expansion
提出动态地址分配算法,通过新的地址偏移计算方法,解决了 ZigBee网络地址分配深度动态拓展的问题;并采用向兄弟节点借地址的策略,解决了父节点地址枯竭时的地址分配问题,且可保持对树状路由的支持。通过在NS2上进行仿真测试,证明新算法在入网成功率、通信开销等指标上均有明显的优势。
提齣動態地阯分配算法,通過新的地阯偏移計算方法,解決瞭 ZigBee網絡地阯分配深度動態拓展的問題;併採用嚮兄弟節點藉地阯的策略,解決瞭父節點地阯枯竭時的地阯分配問題,且可保持對樹狀路由的支持。通過在NS2上進行倣真測試,證明新算法在入網成功率、通信開銷等指標上均有明顯的優勢。
제출동태지지분배산법,통과신적지지편이계산방법,해결료 ZigBee망락지지분배심도동태탁전적문제;병채용향형제절점차지지적책략,해결료부절점지지고갈시적지지분배문제,차가보지대수상로유적지지。통과재NS2상진행방진측시,증명신산법재입망성공솔、통신개소등지표상균유명현적우세。
A Dynamic Address Configuration ( DAC) algorithm was proposed, which adopted a new address calculation formula to solve the dynamic depth expansion problem of ZigBee network, and used the scheme of borrowing address from the brother nodes to solve the address assignment problem in the case of address depletion of the parent nodes. In addition, it supported tree routing just like the original algorithm. The simulation and test on Network Simulator 2( NS2) proves that the new algorithm is good at the indicators of networking success rate, and communication cost.
