摘要
软件定义网络(SDN)为突破机载网络功能僵化所造成的瓶颈提供了新的契机。针对软件定义机载网络控制域内控制节点故障问题,提出一种基于时延和负载均衡的传输节点迁移策略,将故障控制节点所管控数据平面中的传输节点迁移至其他正常控制节点,恢复网络的正常管控。以迁移时延和负载均衡率为目标,建立迁移优化模型,提出基于时延和负载均衡的传输节点迁移算法,指导数据平面中的迁移动作,最终对两个性能目标进行综合权衡。实验结果表明,与距离就近迁移(DCM)策略和分布式逐跳(DHA)策略相比,所提策略在迁移时延和负载均衡率2个方面进行了合适的折中,避免出现迁移时延过大或控制节点负载失衡的情况,有效解决机载网络故障恢复问题。
Software-Defined Networking(SDN)provides a new opportunity to break the bottleneck caused by the rigidity of airborne network functions.Aiming at the problem of control node failure in the software-defined airborne network control domain,we propose a transmission node migration strategy based on time delay and load balancing to transfer the transmission nodes in data plane that are controlled by the failed control node to other normal control nodes to restore the normal control of the network.With the migration delay and load balancing rate as the goal,a migration optimization model is established,and the transmission node migration algorithm based on delay and load balancing is proposed to guide the migration action in the data plane,and finally the two performance goals are comprehensively balanced.The experimental results show that,compared with the Distance Closest Migration(DCM)strategy and the Distributed Hopping Algorithm(DHA)strategy,the proposed strategy makes a suitable compromise between the migration delay and the load balancing rate,avoids excessive migration delay or unbalanced control node load,and effectively solves the problem of airborne network fault recovery.
作者
吕娜
潘武
陈柯帆
张彦晖
LV Na;PAN Wu;CHEN Kefan;ZHANG Yanhui(College of Information and Navigation,Air Force Engineering University,Xi'an 710077,China;Unit 94860 of the PLA,Nanjing 210000,China)
出处
《航空学报》
EI
CAS
CSCD
北大核心
2021年第3期343-352,共10页
Acta Aeronautica et Astronautica Sinica
基金
国家自然科学基金(61703427)。