天津大学学报
天津大學學報
천진대학학보
JOURNAL OF TIANJIN UNIVERSITY SCIENCE AND TECHNOLOGY
2015年
6期
481-487
,共7页
杨挺%袁博%赵承利%吴成%盆海波
楊挺%袁博%趙承利%吳成%盆海波
양정%원박%조승리%오성%분해파
电力通信网络%边扩充%二分算法%网络效能函数
電力通信網絡%邊擴充%二分算法%網絡效能函數
전력통신망락%변확충%이분산법%망락효능함수
electrical power communication network%edge augmentation%bisection algorithm%network efficiency function
随着智能电网的发展,电力通信系统自动交换光网络(ASON)的网架结构日趋复杂,拓扑优化方法成为保证可靠通信、提升网络健壮性的首要关键技术。为此,对电力通信ASON网络拓扑优化问题建模,并提出一种以代数连通度为测度的网络边扩充优化二分算法。通过理论证明赋权图的拉普拉斯矩阵对应特征方程式的单调性,进而采用二分算法快速求解该单调非线性特征方程式的根,确定最优边扩充策略。仿真结果表明在链路失效时,网络边扩充优化二分算法能够以O(4mn lb(???))低复杂度找到精确解,降低端到端通信路径长度,提升网络效能函数。
隨著智能電網的髮展,電力通信繫統自動交換光網絡(ASON)的網架結構日趨複雜,拓撲優化方法成為保證可靠通信、提升網絡健壯性的首要關鍵技術。為此,對電力通信ASON網絡拓撲優化問題建模,併提齣一種以代數連通度為測度的網絡邊擴充優化二分算法。通過理論證明賦權圖的拉普拉斯矩陣對應特徵方程式的單調性,進而採用二分算法快速求解該單調非線性特徵方程式的根,確定最優邊擴充策略。倣真結果錶明在鏈路失效時,網絡邊擴充優化二分算法能夠以O(4mn lb(???))低複雜度找到精確解,降低耑到耑通信路徑長度,提升網絡效能函數。
수착지능전망적발전,전력통신계통자동교환광망락(ASON)적망가결구일추복잡,탁복우화방법성위보증가고통신、제승망락건장성적수요관건기술。위차,대전력통신ASON망락탁복우화문제건모,병제출일충이대수련통도위측도적망락변확충우화이분산법。통과이론증명부권도적랍보랍사구진대응특정방정식적단조성,진이채용이분산법쾌속구해해단조비선성특정방정식적근,학정최우변확충책략。방진결과표명재련로실효시,망락변확충우화이분산법능구이O(4mn lb(???))저복잡도조도정학해,강저단도단통신로경장도,제승망락효능함수。
With the development of smart grid,the structure of electrical power communication automatic switched optical network(ASON) is getting increasingly complex. Topology optimization becomes one of the key technologies to guarantee the transmitting reliability as well as improve the robustness of network. In this paper,ASON’s topology optimization problem was modeled and a bisection algorithm of edge augmentation for weighted network was pro-posed,in which the algebraic connectivity was defined as counting measure. The monotonicity of the characteristic equation corresponding to Laplace matrix for weighted graph was theoretically proved. Therefore,the bisection algo-rithm was employed to rapidly solve this monotone nonlinear characteristic equation and the optimal edge-expansion strategy was obtained. Simulation results show that when links fail,the bisection algorithm of edge augmentation can present exact solutions with low complexity of O(4mn lb(???)),which can effectively reduce point-to-point commu-nication path length and also improve the value of network’s efficiency function.
