CMT(concurrent multipath transfer) can increase throughput and transmission efficiency in multihomed networks. However, it is still an important challenge about distributing traffic adaptively into multiple access networks. Based on LV(Lotka.Volterra) model, we propose an adaptive traffic distribution scheme. In the scheme, two competition modes are concluded, multiple S.D(source.destination) streams competition for bandwidth of one path and multipath competition for traffic between each multihomed S.D host pair. Actually, each access network can establish a path for S.D pairs. So, in the first mode, each path is analogous to a predator, and overall traffic in a multihomed host is analogous to prey. Then, each path has to compete for the traffic by path information, e.g., bandwidth and congestion level. In the other one, if several S.D pairs pass through a shared path simultaneously, they will compete for bandwidth of the path. Here, each S.D pair is analogous to a predator, and the bandwidth of the common path is analogous to the prey. At last, compared with other three schemes, uniform traffic distribution, greedy path selection, random path selection in OPNET simulator, the proposed scheme can perform better onreducing file transmission time and increasing network throughput in FTP service.
本文提出了基于单控制方的可控量子网络编码方案,实现对传统量子网络编码方案中接收方的解码控制.该方案以经典XQQ(Crossing Two Qubits)协议为基础,引入可控隐形传态的控制方到网络编码模型当中,对两个接收方的解码实现控制.方案分析表明,这种新型方案实现了在没有控制方允许的情况下,即使攻击者获得了接收方全部信息也无法解码获得传输的量子信息,从而提高了量子网络中信息传输的安全性.
