本文简述了链路负载均衡技术及常用方法,并且对链路负载均衡在电信网络中的实际应用进行了探讨。
This paper introduce the concept of link load balancing the common method to get the balance and Its application in telecommunication networks.
该算法通过有效的选择和分配带宽资源的方式来选择路径,所以能解决链路传输业务的负载均衡问题。
Through the way of selecting and assigning the bandwidth resource, the algorithm could seek a proper path. So it can solve the problem of load balance of transmitting operations on the physical link.
文章基于负载均衡和禁忌搜索提出一种新的备用路由算法,实现了优化解搜索及对链路负载方差和拥塞的优化。
A novel alternate routing algorithm is proposed on the basis of balanced load of links and tabu-search and the optimization of solution search and the link load variance and congestion realized.
该算法把负载引起的波长损失均衡地分布在网络中,使得链路的信道容量受到的影响更小。
And we propose a new heuristic algorithm entitled maximum bottleneck capacity algorithm (MaxBC), which distributes the wavelength loss to the whole networks.
当P 2 P网络出现负载不均衡,某些节点负载过大的情况时,网络可能回出现链路拥塞,单点失效,网络延迟等问题,并且大大降低网络的利用率。
Imbalanced P2P network could lead to kinds of issues such as certain nodes being overload, network congestion, single point failure, network delay and decreased the use ratio of network.
考虑到网关“热点”问题和链路负载不均衡,本文提出一种基于链路优先级信道分配的多信道MAC协议(PC A - MMAC)。
Considering gateway "hot spots" and link loads, this thesis proposes a multi-channel MAC protocol with link priority-aware channel assignment (PCA-MMAC).
考虑到网关“热点”问题和链路负载不均衡,本文提出一种基于链路优先级信道分配的多信道MAC协议(PC A - MMAC)。
Considering gateway "hot spots" and link loads, this thesis proposes a multi-channel MAC protocol with link priority-aware channel assignment (PCA-MMAC).
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