期刊名称:TELKOMNIKA (Telecommunication Computing Electronics and Control)
印刷版ISSN:2302-9293
出版年度:2016
卷号:14
期号:3A
页码:98-107
DOI:10.12928/telkomnika.v14i3A.4433
语种:English
出版社:Universitas Ahmad Dahlan
摘要:A new scheduling strategy of terminal system virtual link (VL) is put forward, which is based on the short-frame prior scheduling and integrated with weighted round robin (WRR).The new approach, ensured the priority of the important short-frame and balanced the delay upper bound of other different priority signals. Based on the theory of network calculus, the paper derived the delay upper bound of different virtual links through the new combinatorial scheduling strategy and researched the relation among the maximum delay upper bound, weight ratio and frame length. The AFDX network model based on OPNET is established, the terminal system data transmission delay under the three scheduling strategy is simulated and compared. The results show that, the new scheduling strategy can reduce the maximum delay time of short-frame virtual link, and improve the processing bandwidth of relatively important task in long-frame data transmission. Above all, it is feasible and applicable to airborne network with more short-frame and different priority data flows.
其他摘要:A new scheduling strategy of terminal system virtual link (VL) is put forward, which is based on the short-frame prior scheduling and integrated with weighted round robin (WRR).The new approach, ensured the priority of the important short-frame and balanced the delay upper bound of other different priority signals. Based on the theory of network calculus, the paper derived the delay upper bound of different virtual links through the new combinatorial scheduling strategy and researched the relation among the maximum delay upper bound, weight ratio and frame length. The AFDX network model based on OPNET is established, the terminal system data transmission delay under the three scheduling strategy is simulated and compared. The results show that, the new scheduling strategy can reduce the maximum delay time of short-frame virtual link, and improve the processing bandwidth of relatively important task in long-frame data transmission. Above all, it is feasible and applicable to airborne network with more short-frame and different priority data flows.
关键词:AFDX;short-frame prior scheduling;WRR;the maximum delay upper bound;airborne network
